Concrete behaviour under compressive loading Citation for published version (APA): Geel, van, H. J. G. M. (1995). Concrete behaviour under compressive loading: experimental research. (TU Eindhoven. Fac. Bouwkunde, Vakgr. Konstruktie; Vol. TUE-BKO-9502). Technische Universiteit Eindhoven. Document status and date: Published: 01/01/1995 Document Version: Publisher’s PDF, also known as Version of Record (includes final page, issue and volume numbers) Please check the document version of this publication: • A submitted manuscript is the version of the article upon submission and before peer-review. There can be important differences between the submitted version and the official published version of record. People interested in the research are advised to contact the author for the final version of the publication, or visit the DOI to the publisher's website. • The final author version and the galley proof are versions of the publication after peer review. • The final published version features the final layout of the paper including the volume, issue and page numbers. Link to publication General rights Copyright and moral rights for the publications made accessible in the public portal are retained by the authors and/or other copyright owners and it is a condition of accessing publications that users recognise and abide by the legal requirements associated with these rights. • Users may download and print one copy of any publication from the public portal for the purpose of private study or research. • You may not further distribute the material or use it for any profit-making activity or commercial gain • You may freely distribute the URL identifying the publication in the public portal. If the publication is distributed under the terms of Article 25fa of the Dutch Copyright Act, indicated by the “Taverne” license above, please follow below link for the End User Agreement: www.tue.nl/taverne Take down policy If you believe that this document breaches copyright please contact us at: [email protected] providing details and we will investigate your claim. Download date: 08. Aug. 2022
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Concrete behaviour under compressive loading
Citation for published version (APA):Geel, van, H. J. G. M. (1995). Concrete behaviour under compressive loading: experimental research. (TUEindhoven. Fac. Bouwkunde, Vakgr. Konstruktie; Vol. TUE-BKO-9502). Technische Universiteit Eindhoven.
Document status and date:Published: 01/01/1995
Document Version:Publisher’s PDF, also known as Version of Record (includes final page, issue and volume numbers)
Please check the document version of this publication:
• A submitted manuscript is the version of the article upon submission and before peer-review. There can beimportant differences between the submitted version and the official published version of record. Peopleinterested in the research are advised to contact the author for the final version of the publication, or visit theDOI to the publisher's website.• The final author version and the galley proof are versions of the publication after peer review.• The final published version features the final layout of the paper including the volume, issue and pagenumbers.Link to publication
General rightsCopyright and moral rights for the publications made accessible in the public portal are retained by the authors and/or other copyright ownersand it is a condition of accessing publications that users recognise and abide by the legal requirements associated with these rights.
• Users may download and print one copy of any publication from the public portal for the purpose of private study or research. • You may not further distribute the material or use it for any profit-making activity or commercial gain • You may freely distribute the URL identifying the publication in the public portal.
If the publication is distributed under the terms of Article 25fa of the Dutch Copyright Act, indicated by the “Taverne” license above, pleasefollow below link for the End User Agreement:www.tue.nl/taverne
Take down policyIf you believe that this document breaches copyright please contact us at:[email protected] details and we will investigate your claim.
Download date: 08. Aug. 2022
Eindhoven University of Technology Department of Structural Design And Engineering
CONCRETE BEHAVIOUR UNDER COMPRESSIVE LOADING
Experimental research
Part II: Bibliography 1900-1994
Report BK095.02 January 1995 ir. H.J.G.M. van Geel
•
Preface
This list of 625 papers, books and other publications was compiled during the first year of my Ph.D. study at Eindhoven University of Technology. I am not pretending to have read all publications listed in this bibliography, but I thought it very useful to gather all references, dealing with concrete in compression, I came across -for later use by myself or by others- instead of immediately discarding those publications I did not need at the time.
A publication year index (page 3) and a (vezy global) subject index (page 4) might help you find your way through this pile of paper. I recommend any user, when using the subject index, to start with the latest publications on the subject (the highest reference numbers). Searching backwards in time turns out to be the easiest way to complete your search.
In part I of this report ('Concrete behaviour under compressive loading - Experimental research. Part I: Survey of Literature') by the author, results from research into the behaviour of concrete under both uniaxial and multiaxial compression throughout the years is summarized.
ir. Erik van Geel January 1995
2
Publication year index
1900-1926 ............................ . page 6 1974 ............................. page 35 1927-1934 ............................ . page 7 1975 ............................. page 37 1937-1950 ............................. page 8 1976 ............................. page 38 1951-1954 ............................. page 9 1977 ............................. page 39 1955-1956 ............................. page 10 1978 ............................. page 40 1957-1958 ............................. page 11 1979 ............................ . page 41 1959 ...................................... page 12 1980 ............................. page 42 1960 ...................................... page 13 1981 ............................ . page 44 1961 ...................................... page 14 1982 ... .......................... page 47 1962 ..... ................................. page 15 1983 ............................. page 48 1963 ...................................... page 16 1984 ............................. page 50 1964 ...................................... page 17 1985 ............................. page 54 1965 ...................................... page 18 1986 ............................. page 55 1966 ......... ............................. page 20 1987 ............................. page 57 1967 ...................................... page 21 1988 ............................. page 59 1968 ...................................... page 23 1989 ............................. page 60 1969 ...................................... page 26 1990 ............................. page 63 1970 ...................................... page 28 1991. ............................ page 64 1971 ...... ................................ page 29 1992 ............................. page 66 1972 ...................................... page 31 1993 ............................. page 66 1973 ...................................... page 33 1994 .................. ........... page 67
3
Keyword index
Uniaxial tests. 9,11,13,14,17,45,51,54,60,69,81,89,107,112,137,144,158,162,163,175,176,177,179,183, 193,200,206,238,241,244,257 ,262,265,290,306,307 ,333,339 ,352,359 ,390,429 ,438,466, 471,47 5,480,483,484,489,491,504,507 ,508,512,514,516,521,525,544,545,556,563,567, 568,57 5,576,578,583,584,592,597 ,598,600,602,606,610,611,618,619 ,620,621,624,625.
Multiaxial tests. Biaxial tests. Triaxial tests. 1,3,10,18,26,29,32,42,48,53,75,76,77,80,82,106, 122,123, 126,127,129,130,136,137, 163, 164, 166, 177, 183,184,185, 188, 191, 195, 199,201,202,204,205,207 ,215,221,222,223,226, 234,235 ,236,240,242,243,255,259 ,260,261,262,263,264 ,273 ,27 5 ,276,296,300,304,305, 317,327,328,331,332,335,336,341,344,351,355,361,363,366,376,384,393,394,407,410, 411,412,416,422,423,434,435,437,441,442,447 ,449,450,453,458,459,466,467,468,474, 486,488,490,492,495 ,507 ,508,518,535,556,564,567 ,568,570,586,592,606,612,623.
Fatigue tests. Long-term loading, Sustained loading. 7, 155,227 ,229,283,306,323,538,576,604.
Tensile tests. 9,89,144,307,471,589.
Flexural tests. 9,43,51,60,74.
Cyclic tests. 115,227 ,285,308,314,324,326,354,411,412,423,449 ,466,467 ,502,507 ,508,535,556.
Boundary conditions. Loading platens. 1,6,31,55,92,126,175,176,189,258,259,265,266,280,303,330,344,346,348,356,375,376, 416,429 ,460,466,478,526,567 ,568,606,620,621.
Failure theories. Models. Fracture mechanics. Constitutive modelling. 8,21,22,110,124,159,168,169,181, 187 ,203,212,237 ,239,246,247 ,249,252,271,278,279, 285,291,297 ,298,309 ,320,337 ,338,367 ,37 5,378,379,392,393,395,396,406,413,421,422, 426,431,434,441,443,454,456,459,462,464,466,474,481,485,490,491,493,501,502,503, 508,514,530,542,548,551,552,555,556,558,577 ,579,580,582,599,601,603,606,615,616, 617,623.
Measuring techniques. Test equipment 19,27,47 ,91,93,102,111, 149,151,180,254,280,284,346,366,433,465,466,478,486,489,492 ,512,517 ,550,569,571,583,606,620.
4
Loading rate. 49,283,308,380,476.
Cement-aggregate interface, -bond and -interaction. 56,86,99,105,117,133,167,192,211,217,251,322,339.
Anisotropy. 62,68,189,219,250,466,508,556.
Concrete composition. Aggregate size. Concrete properties. 16,24,43,46,52,59,60,67,68,71,78,84,94,96,108,125,144,165,208,222,240,255,260,273, 275,324,353,409,498,500,528,610,614,619,620,621.
Shear loading. Shear crack behaviour. 161,385,408,496,579,590,606,623.
High strength concrete. 116,131,213,345,349,370,377,390,391,402,404,419,519,535,541,545,572,575,576,583, 594,597 ,611.
Crack detection techniques. Microcracking. Micromechanics. 25,35,59,70,71,87,100,101,103,104,120,128,133,134,135,142,145,153,170,171,172,178, 179, 183, 190, 192, 193, 197 ,206,209,214,230,248,253,286,288,293,295,301,314,325,326, 357 ,368,369,370,373,381,391,397,400,402,407,414,415,420,424,425,428,430,432,436, 439,440,447,457,473,479,497 ,505,506,515,521,523,524,525,531,532,533,536,537 ,546, 549 ,553,554,559 ,560,566,573,576,585 ,587 ,593,598,600 ,606,607.
Stress path variations. 164,260,305,341,344,361,372,441,442,466,467 ,507 ,508,556,564,612.
Size effect 23,30,39,40,44,58,61,72,83,92,119,147 ,154,160,173,228,318,338,344,362,376,446,466, 508,54 7 ,555,556,563,578,584,606,610,614,620,621,622.
5
1900
1. Fopple, A. Die Abhangigkeit der Bruchgefahr von der Art des Spannungszustandes, mitteilungen aus dem Mech. Techn. Lab. der Koniglichen Technische Hochschule, MUnchen, Heft 27 und 28, 1900.
1902
2. Considere, A. Resistance a la compression du beton anne et du beton frette, Le genie civil, 1902.
1911
3. Karman, Th. von Festigkeitsversuche unter allseitigem Druck, 7.eitschrift des Vereins Deutscher Ingenieure, nr.42, 1911.
1915
4. Berndt, O. / Preuss, E. Versuche zum Vergleich der Wlirfelfestigkeit des Betons zu der im Bauwerk erzielten Festigkeit, Deutscher Ausschuss ftir Eisenbeton, Heft 36, 1915.
5. Boker, R.
Die Mechanik der bleibenden Formanderungen in kristallinisch aufgebauten Korpem, Mitteilungen Uber Forschungsarbeiten, VDI-Heft 1751176, 1915.
1926
6. Gonnerman, H.F. Effect of end condition of cylinder on compressive strength of concrete, Proc. ASTM, V24, part II, 1924, pp. 1036.
7. Mehmel, A. Untersuchungen Uber den Einfluss haufig wiederholter Druckbeanspruchungen auf Druckelastizitlit und Druckfestigkeit von Beton, Springer-Verlag, 1926.
6
1927
8. Brandtzaeg, A.
Failure of a material composed of non-isotropic elements, 1927.
1928
9. Gonnerman, H.F./ Shuman, E.C. Compression, flexure and tension tests of plain concrete, Proc. Am. Soc. for Testing Mat., V2, nr.28, pp. 527-552, 1928.
1929
10. Richart, F.E. / Brandtzaeg, A./ Brown, L.
A study of the failure of concrete under combined compressive stresses, Bulletin nr.185, University of illinois Engineering Experiment Station, Urbana, april 1929, 102 pp ..
11. Richart, F.E. I Brandtzaeg, A. I Brown, L.
A study of failure in plain and spirally reinforced concrete in compression, Bulletin nr.190, University of Illinois Engineering Experiment Station, Urbana, april 1929.
1930
12. Morsch, E.
Uber den Wert der Reduzierten Spannung beim Beton, Ing. Archiv, 1. Band, 1930.
1934
13. Rengers, N.J.
Proefnemingen op kolommen van beton en gewapend beton, De ingenieur, nrs. 27-31-40-48 (1933) and 1-9-27 (1934).
14. Thoman, W.H. /Reader, W.
Ultimate strength and modulus of elasticity of high strength portland cement concrete, Journal of the ACI, V30, nr.3, 1934, pp. 231-238.
7
1937
15. Wastlund, G.
Nya ron angaende betonges grundlaggende halfasthetsegenschaper, Betong (Stockholm), V3, 1937.
1938
16. Gyengo, T.
Effect of type of test specimen and gradation of aggregate on compressive strength of concrete, Journal of the ACI, nr.34, 1938, pp. 269.
1947
17. Ramaley, L. /McHenry, D.
Stress-strain curves for concrete strained beyond ultimate load, Laboratory rep. SP-12, US Bureau of Reclamation, Denver, 1947.
1949
18. Balmer, G.G.
Shearing strength of concrete under high triaxial stresses - computation of Mohr's envelope as a curve, Special publication nr.23, Structural Research Laboratorium Report, Bur. of Reclam., US Dept. of the Interior, 1949.
19. Binns, R. I Mygind, H.
The use of electrical resistance strain gauges and the effect of aggregate size on gauge length in connexion with the testing of concrete, Magazine of concrete research, Vl, nr.1, 1949, pp. 35-39.
20. Ros, M. /Eichinger, A.
Die Bruchgefahr fester Karper, Bericht nr. 172 der EMPA Zurich, 1949.
1950
21. Freudenthal, A.M.
The inelastic behavior of engineering materials and structures, Wiley and sons, 1950.
8
1951
22. Freudenthal, A.M.
The inelastic behavior and failure of concrete, 1st US national Congress of Applied Mechanics, Chicago, 1951.
23. Gaede, K.
Haben grossere Betonkorper eine geringere Festigkeit als kleinere?, Beton- und Stahlbetonbau, V46, nr.3, 1951, pp. 51-53.
24. Price, W.H.
Factors influencing concrete strength, Journal of the ACI, nr.47, 1951, pp. 417.
1952
25. Jones, R.
A method of studying the formation of cracks in a material subjected to stresses, British Journal of Applied Physics, London, V3, nr.7,july 1952, pp. 229-232.
1953
26. Smith, G.M.
Failure of concrete under combined tensile and compressive stresses, Journal of the ACI, V50, nr.2, oct. 1953, pp. 137-140.
1954
27. Jones, R. /Wright, P.J.F.
Some problems involved in destructive and non-destructive testing of concrete, Proc. of a symp. on Mix Design and Quality Control of Concrete, London, 1954, pp. 441.
28. L'Hermite, R.
Present day ideas in concrete technology. Part 3: The failure of concrete, RILEM Bulletin nr.18,june 1954, pp. 27-38.
29. R~,A.D.
Experiments on creep of concrete under two-dimensional stressing, Magazine of concrete research, nr.16,june 1954, pp. 3-11.
9
30. Riisch, H.
Specimen size and apparent compressive strength, Journal of the ACI, V50, nr. 5, 1954, pp. 803-804.
31. Tarrant, A.G.
Frictional difficulty in concrete testing, The engineer, V198, 1954, pp. 801.
32. US Bureau of reclamation
Triaxial strength tests of neat cement and mortar cylinders, Cone. Lab. Report C-779, Denver, Colorado, 1954.
1955
33. Blakey, F.A.
Some considerations of the cracking or fracture of concrete, Civil engineering and Public Works Review, V50, nr.586, april 1955.
34. Hognestad, E. /Hanson, N.W. /McHenry, D.
Concrete stress distribution in ultimate strength design, Journal of the ACI, V52, nr.4, dee. 1955,pp.455-479.
35. Jones, R. / Gatfield, E.N.
Testing concrete by an ultrasonic pulse technique, DSIR Road Research Techn. paper nr. 34, 1955.
36. L'Hermite, R.
Idees actuelle sur la technologie du beton, Paris, Eyrolles, 1955.
37. Reinius, E.
En teori om Betonges Deformation och Brott, Betong, V40, nr.l, 1955, 15 pp ..
38. Riisch, H.
Versuche zur Festigkeit der Biegedruckzone, Deutscher Ausschuss fur Stahlbeton, Heft 120.
1956
39. Neville, A.
The influence of size of concrete test cubes on mean strength and standard deviation, Magazine of concrete research, nr.8, 1956, pp. 101-110.
10
40. Neville, A.M.
The use of 4-inch concrete compression test cubes, Civil engineering, V51, nr. 605, pp. 1251, 1956.
41. Riisch, H.
Betrachtungen zur Prilfung der Betonfestigkeit, Beton- und Stahlbetonbau, V51, nr.6, 1956, pp. 135-138.
1957
42. Bresler, B. / Pister, K.S.
Failure of plain concrete under combined stresses, Trans. ASCE, nr.122, 1957.
43. Jones, R. /Kaplan, M.F.
The effect of coarse aggregate on the mode of failure of concrete in compression and flexure, Magazine of concrete research, V9, nr.26, 1957, pp. 89-94.
44. Murdock, J. I Kesler, C.
Effect of length to diameter ratio of specimen on the apparent strength of concrete, ASTM Bulletin 221, 1957, pp. 68-73.
45. Neville, A.M.
The failure of concrete compression test specimens, Civil engineering, V52, nr.613, 1957, pp. 773.
46. Neville, A.M.
Concrete compression test cubes, Civil engineering, V52, nr.615, 1957, pp.1045.
47. Wright, P.J.F.
Compression testing machines for concrete, The engineer, V201, 1957, pp. 639.
1958
48. Bresler, B. / Pister, K.S.
Strength of concrete under combined stresses, Journal of the ACI, V55, nr.3, sept. 1958, pp. 321-345.
49. Evans, R.H.
Effect of rate of loading on some mechanical properties of concrete, Mech. Prop. of Nonmet. brittle materials, London, Buttersworth, 1958.
11
50. Glomb, J. Die Ausnutzbarkeit zweiachsiger Festigkeit des Betons im Flachentragwerken, 3. Spannbetonkongress, Berlin, 1958, Heft 10.
51. Jones, R. The failure of concrete test specimens in compression and flexure, Mech. Properties of Non-metallic Brittle Materials, ed. W.H. Walton, Butterworths Sc. Publ., 1958.
52. Jones, R. /Kaplan, M. The effect of stone on the mode of failure of concrete, Magazine of concrete research, nr.11, 1958.
53. McHenry, D. /Kami, J. Strength of concrete under combined tensile and compressive stresses, Journal of the ACI, april 1958.
54. Rasch, C.
Stress-strain diagrams of concrete obtained by constant rates of strain, RILEMkolloquium "Einfluss der 7.eit auf de Festigkeit und Verformung des Betons", Milnchen, 1958.
55. Werner, G. The effect of type of capping material on the compressive strength of concrete cylinders, Proc. ASTM, V58, 1958, pp. 1166.
1959
56. Alexander, K.M. Strength of the cement-aggregate bond, Journal of the ACI, V56, nr.17, 1959, pp. 377-390.
57. Berg, 0.
Research on the concrete strength theory, Journal of applied mechanics, 1959, pp. 60-69.
58. Bonzel, J. Zur Gestaltsabhangigkeit der Betondruckfestigkeit, Beton- und betonstahlbau V54, nr.9, pp. 223-228, nr. 10, pp. 247-248, 1959.
59. Kaplan, M.F. Ultrasonic pulse velocity, dynamic modulus of elasticity, Poisson's ratio and the strength of concrete made with thirteen different coarse aggregates, RILEM Bulletin nr.1 , 1959, pp. 58-73.
12
60. Kaplan, M.F.
Flexural and compressive strength of concrete as affected by the properties of the coarse aggregates, Journal of the ACI, V55, nr.11, 1959, pp. 1193-1208.
61. Kesler, C.
Effect of length to diameter ratio on compressive strength, Proceedings ASTM, V59, 1959,pp. 1216-1229.
62. Neville, A.M.
The influence of direction of loading on the strength of concrete test cubes, ASTM Bulletin nr. 239, 1959, pp. 63.
63. Neville, A.M.
Some aspects of the strength of concrete, Civil engineering, V54, part 1, pp. 1153, part 2, pp. 1308, part 3, pp. 1435, 1959.
64. Pilny, F.
Die Kraftwirkungslinie beim Drukversuch, Bautechnik, V36, nr.l, 1959, pp. 7-11.
65. Rusch, H.
Physikalische Fragen der Betonpriifung, Zement-Kalk-Gips, V12, nr.1, 1959, pp. 1-9.
66. Rilsch, H.
Der Einfluss der Deformationseigenschaften des Betons auf den Spannungsverlauf, Schweizerische Bauzeitung, V77, nr.9, 1959, pp. 119-126.
67. Walker, S. /Bloem, D.L. /Gaynor, R.D.
Relationships of concrete strength to maximum size of aggregate, Proc. Highw. Res. Bd., nr.38, pp. 367, 1959.
1960
68. Alexander, K.M. /Wardlaw, J.
Dependence of cement aggregate bond strength on size of aggregate, Nature, V187, nr.4733, july 16, 1960, pp. 230-231.
69. Avram, C. et aJ.
Determination of concrete mechanical strengths on cylindrical specimens, Buletin Stiintific si technical Inst Politechnic Timisoara, fasc. 1-2, nr.5, 1960.
70. Jones, R.
The development of microcracks in concrete, RILEM Bulletin 9, 1960, pp.110.
13
71. Kaplan, M.F.
The relation between ultrasonic pulse velocity and the compressive strength of concretes having the same workability but different mix proportions, Magazine of concrete research, Vl2, nr.34, pp. 3-8, 1960.
72. Kuczynski, W. La resistance du beton etudie sur des eprouvettes de differentes formes et de diverses dimensions, RILEM bulletin 8, 1960, pp. 77-92.
73. Riisch, H.
Researches towards a general flexural theory for structural concrete, Journal of the ACI, 1960, pp. 1-28.
74. Smith, R.C.
The determination of the compressive stress-strain properties of concrete in flexure, Magazine of concrete research, Vl2, nr.36, 1960.
75. Tsuboi, Y. / Suenaga, Y. Experimental study on failure of plain concrete under combined stresses, Transactions of the Architectural Institute of Japan, part 3, nr.64, feb. 1960, pp. 25-36.
1961
76. Akroyd, T.N.W. Concrete under triaxial stresses, Magazine of concrete research, V13, nr.39, nov. 1961, pp. 111-119.
77. Bellamy, C.J. Strength of concrete under combined stresses, Journal of the ACI, oct. 1961, pp. 367-380.
78. Gilkey, H.J.
Water cement ratio versus strength - another look, Journal of the ACI, V57, nr.10, april 1961,pp. 1287-1312.
79. Kaplan, M.F. Crack propagation and the fracture of concrete, Journal of the ACI, VS, nr.58, 1961, pp. 591-610.
80. WeigJer, H. /Becker, G. Uber das Bruch- und Verformungsverhalten von Beton bei mehrachsiger Beanspruchung, Der Bauingenieur, Heft 10, 1961.
14
1962
81. Brock, G.
Concrete: complete stress-strain curves, Engineering (London), V193, nr.5011, 1962, pp. 606.
82. Campbell-Allen, D.
Strength of concrete under combined stresses, Constructional Review, Sydney, Australia, V35, nr.4, april 1962, pp. 29-37.
83. Gaede, K.
Ober den Einfluss der Grosse der Proben auf die Wiirfeldruckfestigkeit von Beton, Deutscher Ausschuss fl.if Stahlbeton, Heft 144, 1962.
84. Hansen, H. / Thaulow, S. et al
Compressive strength of concrete - cube or cylinder?, RILEM bulletin 17, 1962, pp. 23-30.
85. Hansen, T.C.
On the rheology of hardened concrete, Proc. Swedish Cement and Concrete Institute, V37, 1962.
86. Hirsch, T J. Modulus of elasticity of concrete affected by elastic moduli of cement paste matrix and aggregate, Journal of the ACI, V59, nr.3, 1962, pp. 427-452.
87. Hsu, T.T.C.
Microcracks between coarse aggregate and paste-mortar in concrete, PhD. Thesis, Cornell University, Ithaca, NY,june 1962.
88. Mehmel, A. I Kern, E.
Elastische und plastische Stauchungen von Beton infolge Druckschwell und Standbelastung, Deutscher Ausschuss fiir Stahlbeton, Heft 153, 1962.
89. Nilsson, S.
Tensile and compressive strength of concrete detennined on the same cube, RILEM Bulletin 17, 1962.
90. Rasch, C.
Spannungs-Dehnungs-Linien des Betons und Spannungsverteilung in der Biegedruckzone bei konstanter Dehngeschwindigkeit, Deutscher Ausschuss filr Stahlbeton, Heft 154, 1962.
15
91. Rohrbach, C. Spannungs- und Dehnungsmessungen an Beton, Archiv fi.ir Technisches Messen, V318, 1962, pp. 159-160.
92. ThauJow, S. Apparent compressive strength of concrete as affected by height of test specimen and friction between loading surfaces, RILEM bulletin 17, 1962, pp. 31-33.
93. Turner, P.W. /Barnard, P.R. Stiff constant strain rate testing machine, Engineer (London), V214, nr.5557, 1962, pp. 146-14.
1963
94. Bloem, D.L. I Gaynor, R.D. Effect of aggregate properties on strength of concrete, Journal of the ACI, V60, nr.10, 1963, pp. 1435-1453.
95. Brace, W.F. / Bombolakis, E.G. A note on brittle crack growth in compression, Journal of geophys. research, V68, nr.12, 1963.
96. Cordon, W.A. /Gillespie, H.A. Variables in concrete aggregate and Portland cement paste which influence the strength of concrete, Journal of the ACI, V60, nr.8, 1963, pp. 1029-1049.
97. Glilcklich, J. Fracture of plain concrete, Journal of the Eng. Mech. Div., ASCE, V89, 1963, pp. 127-138.
98. Hsu, T.T.C. Mathematical analysis of shrinkage stresses in a model of hardened concrete, Journal of the ACI, V60, nr.3, 1963, pp. 371-390.
99. Hsu, T.T.C. /Slate, F.O. Tensile bond strength between aggregate and cement paste or mortar, Journal of the ACI, V60, nr.4, 1963, pp. 465-486.
100. Hsu, T.T.C. /Slate, F.O. /Sturman, G.M. /Winter, G. Microcracking of plain concrete and the shape of the stress-strain curve, Journal of the ACI, V60, nr.2, 1963, pp. 209-224.
16
101. Kap1an, M.F.
Strains and stresses of concrete at initiation of cracking and near failure, Journal of the ACI, July 1963.
102. Newman, K. /Lachance, L. /Loveday, R.
Strain measurements on saturated concrete specimens, Magazine of concrete research, V15, nr.45, 1963, pp. 143-150.
103. SJate, F.O. / Olsefski, S.
X-ray for study of internal structure and microcracking of concrete, Journal of the ACI, V60, nr.5, 1963, pp. 575-588.
104. Sturman, G.M.
Microcracking and the structural behavior of plain concrete, PhD. Thesis, Cornell University, 1963.
105. Taylor, M.A.
The shearing strength of the bond between coarse aggregates and cement paste and mortars, M.S. Thesis, Cornell University, 1963.
106. Weig1er, H. /Becker, G. Uber das Bruch- und Verformungsverhalten von Beton bei zweiachsiger Beanspruchung, Deutscher Ausschuss fiir Stahlbeton, Heft 157, 1963.
1964
107. Barnard, P.R.
Researches into the complete stress-strain curve for concrete, Magazine of concrete research, V16, nr.49, 1964, pp. 203-210.
108. Bennett, E.W./ Khi1ji, Z.M.
The effect on some properties of the coarse aggregate in hardened concrete, Journal of the British Granite and Whinstone Federation, 1963, pp. 17-28, 1964, pp. 17-24.
109. Desayi, P. I Krishnan, S.
Equation for stress-strain curve of concrete, Journal of the ACI, V61, nr.3, 1964, pp. 345-350.
110. Hashin, Z.
Theory of mechanical behaviour of heterogeneous media, Applied Mech. Review, V17, nr.1, 1964, pp. 1-9.
17
111. Millier, K.
Der Einfluss der Messlange auf die Ergebnisse bei Dehnmessungen an Beton, Beton, V14, nr.5, 1964, pp. 205-208.
112. Newman, K. I Lachance, L. The testing of brittle materials under uniform uniaxial compressive stress, Proc. of the Am. Soc. for Testing and Materials, 1964, pp. 1044-1067.
113. Roy, H.E.H. I Sozen, M.A.
Ductility of concrete, ACI Special Publ. SP12 "Flexural mechanics of reinforced concrete", 1964, pp. 213-235.
114. Saenz, L.P. Discussion on 'Equation for stress-strain curve of concrete' by Desayi/Krishnan, Journal of the ACI, V61, nr.9, 1964, pp. 1229 and 1236.
115. Sinha, B.P. /Gerstle, K.H. /Tolin, C.G. Stress-strain relations for concrete under cyclic loading, Journal of the ACI, V62, nr.2, 1964, pp. 195-210.
116. Smith, E.F. /Tynes, W.O. /Saucier, K.L.
High compressive strength concrete, development of concrete mixtures, Techn. Doc. rep., US Army Eng. Waterways Exp. Station, 1964 (44 pp.).
117. Taylor, M.A./ Broms, B.B. Shear bond strength between coarse aggregates and cement paste or mortar, Journal of the ACI, 1964, pp. 939-957.
118. Tolin, C.G. /Gerstle, K.H.
Discussion of "Equation for the stress-strain curve of concrete" by P. Desayi I S. Krishnan, ACI Journal, V.61, nr.9, 1964, pp. 1236-1238.
1965
119. Aurich, H. Beitrag zum Verhfiltnis der Zylinderdruckfestigkeit ztir Wtirfelfestigkeit von Beton, Techn.-wissensch. Mitteilungen nr.2, 1965, Dyckerhoff Zementwerke AG, Wiesbaden.
120. Broms, B.B.
Technique for investigation of internal cracks in reinforced concrete members, Journal of the ACI, V62, nr.1, 1965, pp. 35-44.
18
121. Budianski, B.
On the elastic moduli of some heterogeneous materials, Journal of Mech. and Physics of Solids, V13, 1965, pp. 223-227.
122. Chinn, J. I Zimmermann, R.M.
Behavior of plain concrete under various high triaxial compressive loading conditions, University of Colorado, 1965.
123. Fumaga1Ii, E. et al.
Strength of concrete under biaxial compression, Journal of the ACI, V62, 1965, pp. 239-249.
124. Hansen, T.C. Theories of multi-phase materials applied to concrete, cement mortar and cement paste, Proc. of the Int. Conf. on "the Structure of Concrete" London, 1965, pp. 16-23.
125. Hansen, T.C. Influence of aggregate and voids on modulus of elasticity of concrete, cement mortar and cement paste, Journal of the ACI, V62, nr.2, 1965, pp. 193.
126. Hilsdorf, H.
Die Bestimmung der zweiachsigen Festigkeit des Betons, Deutscher Ausschuss ftir Stahlbeton, Heft 173, 1965.
127. Krahl, N.W. et al.
The behavior of plain mortar and concrete under triaxial stresses, Proc. ASTM, V65, 1965, pp. 697-709.
128. Navaratnarajah, V. A photoelastic method of detecting microcracks in concrete, Journal of Scientific Instruments, V42, nr.4, 1965.
129. Newman, K.
Criteria for the behavior of plain concrete under complex states of stress, Int. Conf. on the Structure of Concrete, London, 1965, paper F-1, 38 pp ..
130. Reimann, H. Kritische Spannungszusllinde des Betons bei mehrachsiger ruhender Kurzzeitbelastung, Deutscher Ausschuss ftir Stahlbeton, Heft 175, 1965.
131. Saucier, K.L. /Tynes, W.O. /Smith, E.F.
High strength concrete - report 3, summary report, US Army Eng. Waterways Exp. Station, 1965 (87 pp.).
19
132. Shah, S.P.
Inelastic behavior and fracture of concrete, PhD. Thesis, Cornell University, Ithaca, NY, 1965.
133. Shah, S.P. /Slate, F.O.
Internal microcracking, mortar-aggregate bond and the stress-strain curve of concrete, Proc. of the International Conference on the structure of concrete , London, ed. A.E. Brooks I K. Newman, 1965, pp. 925-930.
134. Sturman, G.M. /Shah, S.P. /Winter, G.
Effects of flexural strain gradients in microcracking and stress-strain behavior of concrete, Journal of the ACI, V62, nr.7,july 1965, pp. 805-822.
135. Sturman, G.M. /Shah, S.P. /Winter, G. Microcracking and inelastic behavior of concrete, Proc. of an International Symposium on Flexural Mechanics of Reinforced Concrete, Miami Florida, ACI-special publ. nr.12, 1965, pp. 473-499.
136. Sundara Raja Iyengar, K.T. et al.
Strength of concrete under biaxial compression, Journal of the ACI, febr. 1965.
137. Vile, G.W.D.
Behavior of concrete under simple and combined stresses, Imperial College of Science and Technology, London, sept. 1965, 559 pp.
138. Walsh, J.B.
The effect of cracks in rocks on Poisson's ratio, Journal of geophys. research, V70, nr.20, 1965,pp.5249-5257.
139. Walz, K. / Bonzel, J. /Baum, G.
Versuche mit Leichtbeton hoher Festigkeit, Beton, V15, nr.2, pp. 59-65, nr.3, pp. 107-114, 1965.
140. Winter, G. / Riisch, H.
Colloque on nature of inelasticity of concrete and its structural effects, Report nr. 322, Dep. of Struct Eng., Cornell University, 1965.
1966
141. Ben-Zvi, E. / Miiller, G. /Rosenthal, I.
Effect of the active triaxial stress on the strength of concrete elements, Journal of the ACI, V63, oct. 1966, pp. 112-128.
20
142. Facaoaru, I. Some aspects of concrete cracking and failure under compression stresses, as determined by ultrasonic measurements, Rev. Constr. Mat. Constr. 7, 1966.
143. Henzel, J. / Spitzner, J. /Freitag, W. Einflilsse auf die Ergebnisse bei Druckfestigkeitsprtifungen, Mitteilungen aus dem Institut flir Massivbau, Heft 12, 1966, TH Darmstadt.
144. Hughes, B.P. /Chapman, G.P.
The deformation of concrete and microconcrete in compression and tension with particular reference to aggregate size, Magazine of concrete research, Vl8, nr.54, 1966, pp. 19-24.
145. Isenberg, J. A study of cracks in concrete by X-radiography, RILEM bulletin nr.30, 1966, pp. 107-114.
146. Lott, J. /Kesler, C.E.
Crack propagation in plain concrete, Symp. on Structure of Portland Cement Paste and Concrete, Highway research board, Spec. resp. 90, Washington, 1966.
147. Neville, A.
A general relation for strengths of concrete specimens of different shapes and sizes, Journal of the ACI, V63, nr.10, 1966, pp. 1095-1109.
148. Newman, K. Concrete control tests as measures of the properties of concrete, Symp. on concrete quality, session 6, Cement and Concrete Ass., London, 1966, pp. 120-138.
149. Newman, K. / Sigvaldason, O.T. Testing machine and specimen characteristics and their effect on the mode of deformation, failure and strength of materials, Proc. Inst. Mech. Engrs., V180, part A, 1966, pp. 399-410.
150. Shah, S.P. /Winter, G.
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151. Sigvaldason, 0.
The influence of testing machine characteristics upon the cube and cylinder strength of concrete, Magazine of concrete research, V18, nr.57, 1966, pp. 197-206.
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152. Stockl, S. Das unterschiedliche Verformungsverhalten der Rand- und Kemzonen von Beton, Deutscher Ausschuss filr Stahlbeton, Heft 185.
153. Whitehurst, E.A.
Evaluation of concrete properties from sonic tests, Monograph, nr.2, ACI, Detroit, Michigan, 1966.
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154. Albrecht, W. Einfluss des Verhaltnisses von Probendicke zu Grosstkomdurchmesser und Einfluss der Probengrosse auf die Betondruckfestigkeit, Beton, V17, nr.5, 1967, pp. 173-178.
155. Bennett, E.W./ Muir, S.E. Some fatigue tests of high strength concrete in axial compression, Magazine of concrete research, Vl9, nr.59, 1967, pp. 113-117.
156. Beres, L. Investigation on structural loosening of compressed concrete, Materiaux et constructions, nr.36, 1967, pp. 185-190.
157. Bieniawski, Z.1. Mechanism of brittle fracture of rock, Int. J. Rock Mech. Min. Sci., V 4, 1967, pp. 395-430.
158. Desayi, P. I Viswanatha, C.S. True ultimate strength of plain concrete, RILEM Bulletin 36, 1967, pp. 163-173.
159. Dougill, J.W.
A mathematical model for the failure of cement paste and mortars, Magazine of concrete research, V.19, nr. 60, pp. 135-142, 1967.
160. Gliicklich, J. /Cohen, L.
Sire as a factor in the brittle-ductile transition and the strength of some materials, International Journal of Fracture Mechanics, V3, 1967, pp. 278-289.
161. Goode, C.D. /Helmy, M.A.
The strength of concrete under combined shear and direct stress, Magazine of concrete research, V19, nr.59,june 1967, pp. 105-112.
22
162. Hughes, B. I Bahramian, B.
Cube tests and the uniaxial compressive strength of concrete, Magazine of concrete research, V19, nr.60, 1967, pp. 165-172.
163. Meyer, H.G. Beitrag zur Frage des Querkriechens von Beton unter ein- und zweiachsiger Druckbeanspruchung, Mitteilungen aus dem Institut filr Materialprufung und Forschung des Bauwesens der TH Hannover, Heft 5, 1967, 247 pp ..
164. Niwa, Y. /Kobayashi, S. /Koyanagi, W. Failure criterion of lightweight aggregate concrete subjected to triaxial compression, Memoires of the faculty of engineering, Kyoto University, nr.29, 1967-2, pp. 119-131.
165. Popovics, S. Relations between various strengths of concrete, Highway Research Board, Washington DC, V210, 1967, pp. 67-94.
166. Robinson, G.S. Behavior of concrete in biaxial compression, Journal of the Struct. Div., ASCE, V93, nr. STl, feb. 1967, paper 5090, pp. 71-86.
1968
167. Alexander, K.M. /Wardlaw, J. /Gilbert, DJ. Aggregate-cement bond, cement paste strength and the strength of concrete, Proc. of the Int. Conf. on the Structure of Concrete, London, 1965, pp. 59-81.
168. Berg, 0. Die Hauptentwicklungsrichtungen der Theorie der Festigkeit und Verformung des Betons, Wissensch. Zeitschrift der Univ. Dresden, V17, nr.6, 1968, pp. 1489-1496.
169. Drucker, D.C. Thoughts on the present and future interrelation of theoretical and experimental mechanics, Experimental mechanics, 1968, pp. 97-106.
170. Forrester, J.A. Discussion: Propagation of cracks and their detection under short-and long-term loading, Proc. Int. Conf. on The Structure of Concrete, ed. A.E. Brooks I K. Newman, 1968.
171. Galan, A. Die Bildung und Verbreidung Mikrorissen im Beton bei mittiger Druck- und Zugbeanspruchung, Wissensch. Zeitschrift der TU Dresden, V17, nr.6, 1968, pp. 1526-1528.
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172. Gliicklich, J. The effect of microcracking on time dependent deformations and the longterm strength of concrete, Proc. of the Int. Conf. on the Structure of Concrete, London, 1968, pp. 176-189.
173. Gliicklich, J. I Cohen, L. Strain-energy and size effects in a brittle material, Material research & Standards, V8, 1968, pp. 17-22.
174. Hansen, T.C. Cracking and fracture of concrete and cement paste, ACI Spec. publ. SP-20 "Causes, mechanisms and control of cracking", 1968, pp. 43-66.
175. Hawkins, N.M.
The bearing strength of concrete loaded through rigid plates, Magazine of concrete research, V20, nr.62, 1968, pp. 31-40.
176. Hawkins, N.M.
The bearing strength of concrete loaded through flexible plates, Magazine of concrete research, V20, nr.63, 1968, pp. 95-102.
177. Hruban, I./ Vitek, B. Der Festigkeit des Betons bei ein- und zweiachsiger Beanspruchung, Sonderdruck der wissenschaftl. :leitschrift der TU Dresden, nr.17, Heft 6, 1968, pp. 1523-1525.
178. Isenberg, J.
Properties of concrete change when microcracking occurs, ACI Special publ. SP20 "Causes, mechanism and control of cracking in concrete", 1968, pp. 29-41.
179. Jones, R. Cracking and failure of concrete test specimens under uniaxial quasi-static loading, Pro. Int. Conf. on the Structure of Concrete, London, 1965, pp. 125-130.
180. Jordaan, I./ Illston, J.
A creep rig for testing concrete under multiaxial compressive stress, Magazine of concrete research, V20, nr.65, 1968, pp. 235-239.
181. Kaplan, M.
The application of fracture mechanics for concrete, Proc. of the Int. Conf. on the Structure of Concrete, London, 1965, pp. 169-17 5.
182. King, J.W.H. Discussion on properties of concrete under complex states of stress, Proc. Int. Conf. on The structure of Concrete, London, 1965, pp. 293.
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183. Krishnaswamy, K.T.
Strength and microcracking of plain concrete under triaxial compression, Journal of the ACI, V65, nr.10, oct. 1968, pp. 856-862.
184. Kupfer, H. Das Verhalten Betons unter zweiachsiger Beanspruchung, Internationales Kolloquium Beton, Dresden, 1968.
185. Malcov, K.A. I Pak, A.
Betonfestigkeit bei mehrachsiger Beanspruchung, Internationales Kolloquium Dresden 1968, Sonderdruck der wissenschaftl. Zeitschrift der TU Dresden, pp. 1519-1520.
186. Mangel, S.
Beitrag zur Prilfung von Betonwilrfeln, Betonstein-Zeitung, V34, nr.4, 1968, pp. 197-200.
187. McGreath, D.R.
The fracture mechanics of concrete, PhD. Thesis, Imperial College, London.
188. Opitz, H.
Festigkeit und Verformungseigenschaften des Betons bei zweiachsiger Beanspruchung, Festigkeitsprobleme des Betons, Internationales Kolloquium Dresden 1968, Sonderdruck der wissenschaftl. Zeitschrift der TU Dresden, pp. 1523-1525.
189. Pagano, N.J. /Halpin, J.C. Influence of end constraint in the testing of anisotropic bodies, Journal of composite materials, V2, nr.1, 1968, pp. 18-31.
190. Robinson, G.S.
Methods of detecting the formation and propagation of microcracks in concrete, Proc. of the International Conference on the Structure of Concrete, London, 1965, Cement and Concrete Association, London, 1968, pp. 131-145.
191. Schroder, S. /Opitz, M.
Festigkeit und Verformungseigenschaften des Betons bei zweiachsiger Druckbeanspruchung, Bauplanunglbautechnik, Heft 22, 1968, pp. 190-193.
192. Shah, S.P. /Slate, F.O.
Internal microcracking, mortar-aggregate bond and the stress-strain curve of concrete, International conference on the structure of concrete, London, 1968, pp. 82-92.
193. Shah, S.P. /Chandra, S. Critical stress, volume change, and microcracking of concrete, Journal of the ACI, V65, nr.9, sept 1968, pp. 770-781.
25
194. Slate, F.O. /Meyers, B.L. Defonnations of plain concrete, Fifth Int. Symposium on the Chemistry of Cement, Tokyo, Japan, 1968,pp. 142-151.
195. Vile, G.W.D. Behavior of concrete under short-tenn static biaxial stress, The Structure of Concrete, ed. A.E. Brooks I K. Newman, CCA London, 1968, pp. 275-288.
196. Wawersik, W.R. Detailed analysis of rock failure in laboratory compression tests, Ph.D. Thesis, University of Minnesota, 1968, 165 pp.
1969
197. Bhargava, J. Nuclear and radiographic methods for the study of concrete, Acta Polytechnica Scandinavica, Civil Engineering and Building Construction Series 60, The Royal Swedish Acad. of Eng. Sciences, Stockholm, 1969, 103 pp ..
198. Bieniawski, Z.I. / Denkhaus, H.G. /Vogler, U.W. Failure of fractured rock, Int. J. Rock Mech. Min. Sci., V6, 1969, pp. 323-341.
199. Crumiere, B. I Coron, M. Etat de contrainte biaxial en compression, Travaux, nr.408, march 1969.
200. Desayi, P. Fracture of concrete in compression, Materials and structures, VlO 1969, pp. 139-144.
201. Gardner, J.J. Triaxial behaviour of concrete, Journal of the ACI, feb. 1969, pp. 136-146.
202. Golapakrishnan, K.S. I Neville, A.M. I Ghali, A. Creep Poisson's ratio of concrete under multiaxial compression, University of Calgary, ACI-Journ., dee. 1969, pp. 1008-1016.
203. Hatano, T. Theory of failure of concrete and similar brittle solid on the basis of strain, Int. Journal of fracture mech., nr.5, 1969, pp. 73-79.
204. Johmon, R.P. /Lowe, P.G. Behavior of concrete under biaxial and triaxial stress, International Conference on Structure, Solid Mech. and Eng. Design, Civil Engineering Materials, Southampton University, april 1969, pp. 89/1-89/13.
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205. Karsan, I.D. /Jirsa, J .0. Behavior of concrete under compressive loadings, Journal of the Structural Division, V95, nr.12, 1969, pp. 2543-2563.
206. Krishnaswamy, K.T. Microcracking of plain concrete under uniaxial compressive loading, Indian Concrete Journal, Bombay, V43, nr.4, april 1969, pp. 143-145.
207. Kupfer, H. / Hilsdorf, H.K./ Rusch, H. Behavior of concrete under biaxial stress, Journal of the ACI, V66, nr.8, aug. 1969, pp. 656-666.
208. McGreath, D.R./ Newman, J.B./ Newman, K. The influence of aggregate particles on the local strain distribution and fracture mechanics of cement paste during drying shrinkage and loading to failure, Union of Testing and Research Laboratories for Materials and Structures, 1969.
209. Meyers, B.L. /Slate, F.O. /Winter, G. Relationship between time dependent deformation and microcracking of plain concrete, Journal of the ACI, V66, nr.1,jan. 1969, pp. 60-68.
210. Moavenzadeh, F. / Kuguel, R. Fracture of concrete, Journal of Mat., JMLSA, nr.4, 1969, pp. 497-519.
211. Nepper-Christensen, P. /Nielsen, T.P.H. Modal determination of the effect of bond between coarse aggregate and mortar on the compressive strength of concrete, Journal of the ACI, V66, nr.1, 1969, pp. 69-72.
212. Newman, K. /Newman, J.B. Failure theories and design criteria for plain concrete, Paper 77, Civil engineering materials Conference on Structure, Solid Mech. and Eng. Design, Southampton, 1969.
213. Parrot, LJ. The properties of high-strength concrete, Techn. Rep. 42.417, Cement and Concrete Association, 1969 (12 pp.).
214. Theocaris, P.S. / Koufopoulos, T. Photoelastic analysis of shrinkage microcracking in concrete, Magazine of concrete research, V21, nr.66, 1969.
27
1970
215. Buyukozturk, 0.
Stress-strain response and fracture of a model of concrete in biaxial loading, PhD. Thesis, Cornell University, 1970.
216. Crouch, S.L.
Experimental detennination of volumetric strains in failed rock, Int.J.Rock.Mech. & Min.Sc., nr.7, 1970, pp. 589-603.
217. Darwin, D. /Slate, F.O.
Effect of paste-aggregate bond strength on behavior of concrete, Journal of Materials, V5, nr.1, 1970, pp. 86-98.
218. Hawkins, N.M.
The bearing strength of concrete for strip loadings, Magazine of concrete research, V22, nr.71, 1970, pp. 87-98.
219. Hughes, B.P. /Ash, J.E. Anisotropy and failure criteria for concrete, Materials and structures, V3, nr.18, 1970, pp. 371-374.
220. Iyengar, K.T. /Desayi, P. /Reddy, K.N.
Stress-strain characteristics of concrete confined in steel binders, Magazine of concrete research, V22, nr.72, 1970, pp. 173-184.
221. Launay, P. / Gachon, H. /Poitevin, P.
Defonnation et resistance ultime du beton sous ~treinte triaxiale, Annales de l'institut technique du batiment et des travaux publics, may 1970, nr.269, pp. 23-48.
222. Mills, L.L. I Zimmermann, R.M.
Compressive strength of plain concrete under multiaxial loading conditions, Journal of the ACI, oct. 1970, pp. 802-807.
223. Nelissen, LJ.M.
Twee-assig onderzoek van grindbeton, PhD. Thesis, TU Delft, 1970.
224. Popovics, S.
A review of stress-strain relationships for concrete, Journal of the ACI, V67, nr.3, 1970, pp. 243-248.
225. Robert, S.
Zur Unterscheidung elementarer Arten der Betonfestigkeit, Wissensch. Zeitschrift der Hochschule filr Architektur und Bauwesen, Weimar, V17, nr.1, 1970, pp. 1-3.
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226. Rosenthal, I. I Gliicklich, J. Strength of plain concrete under biaxial stress, Journal of the ACI, V67, nr.11, nov. 1970, pp. 903-913.
227. Shah, S.P. /Chandra, S.
Fracture of concrete subjected to cyclic and sustained loading, Journal of the ACI, oct. 1970, pp. 816-825.
228. Symons, L
The effect of size and shape of specimen upon the unconfined compressive strength of cement-stabilized materials, Magazine of concrete research, V22, nr.70, 1970, pp. 45-50.
1971
229. Bennett, E.W./ Raju, N.K.
Cumulative fatigue damage of plain concrete in compression, Proc. Conf. "Structure, Solid Mech. and Eng. Design", Southampton, 1971.
230. Beres, L.
Relationship of deformational processes and structure change in concrete, Struct., Solid Mech. and Eng. Design, part 2 (ed. TE'ENI), Wiley Interscience, 1971.
231. Bonzel, J. Ein Beitrag zur Verformung des Betons, Beton, V21, nr.2, pp. 57-60, nr.3, pp. 105-109, 1971.
232. Brace, W.F.
Micromechanics in rock systems, Proc. Conf. "Structure, Solid Mech. and Eng. Design", Southampton, 1971.
233. Brady, B.T.
An exact solution to the radially end-constrained circular cylinder under triaxial loading, Int. J. of Rock Mech. and Mining Sciences, V8, 1971, pp. 165-178.
234. Brady, B.T.
The effect of confining pressure on the elastic stress distribution in a radially endconstrained circular cylinder, Int. J. of Rock Mech. and Mining Sciences, V8, 1971, pp. 153-164.
235. Bremer, F.
Festigkeits- und Verformungsverhalten des Betons bei mehrachsiger Beanspruchung, Beton- und Stahlbetonbau, V66, nr.1, 1971, pp. 17-22.
29
236. Buyukozturk, O. /Nilson, A.H./ Slate, F.O. Stress-strain response and fracture of a concrete model in biaxial loading, Journal of the ACI, V68, nr.8,, aug. 1971, pp. 590-599.
237. Dougill, J.W. Further consideration of a mathematical model for progressive fracture of a heterogeneous material, Magazine of concrete research, V.23, nr. 74, pp. 5-10, 1971.
238. Facaoaru, I./ Tannenbaum, M. / Stanculescu, G.
Studies on the deformation and cracking of concrete under uniaxial stress fields, Conference "Structure, solid mech. and eng. design", Southampton, 1971, pp. 653-666.
239. Grimer, FJ. /Hewitt, R.E.
The form of the stress-strain curve of concrete interpreted with a diphase concept of material behaviour, Proc. of the Conf. on "Structure, Solid Mech. and Eng. Design", Southampton, 1969, pp. 681-691.
240. Hobbs, D.W. Strength of concrete under combined stress, Cement and concrete research, Vl, 1971, pp. 41-56.
241. Hudson, J.A. /Brown, E.T./ Fairhurst, C.
Shape of the complete stress-strain curve for rock, Stability of Rock Slopes, Proc. of the 13th Symp. on Rock Mechanics, Univ. of Illinois, 1971, ed. E.J. Cording, pp. 773-795.
242. Launay, P. / Gachon, H. Strain and ultimate strength of concrete under triaxial stress, Proc. 1st Int. Conf. on Structural Mechanics in Reactor Technology, Berlin, 1971, pp. 23-34.
243. Liu, T.C.
Stress-strain response and fracture of concrete in biaxial compression, PhD. Thesis, Cornell University, 1971.
244. Nakagawa, K. I Kobayashi, S. /Niwa, Y.
Study of progressive failure of concrete specimen in uniaxial compression, Proc. Int. Conf. on the mechanical behavior of materials, Kyoto, 1971, pp. 32-42.
245. Sargin, M.
Stress-strain relationship for concrete and the analysis of structural concrete sections, Study nr.4, Solid Mech. Div., Univ. of Waterloo, Ontario, 1971.
246. Sasse, H.R.
A model for failure under compression of two-phase systems of materials similar to concrete, Int Conf. on "Structure, Solid Mech. and Eng. Design", Southampton, 1971.
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247. Sasse, H.R.
Zurn Problem des Bruchverhaltens betonahnlicher Zweistoffsysteme, Forschungsberichte des Landes Nordrheinwestfalen nr.2192, Westdeutscher Verlag, Opladen 1971.
248. Shah, S. Micromechanics of concrete and fibre reinforced concrete, Conf. "Structure, Solid Mech. and Eng. Design", Southampton, 1969, pp. 367-376.
249. Shah. S.P. / McGarry, F J. Griffith failure criterion and concrete, Journal of the Eng. Mech. Div., nr. EM6, 1971, pp. 1663-1676.
250. Soshiroda, T. Anisotropy of concrete, Int. Conf. on Mech. Behaviour of Materials, Kyoto, 1971.
251. Swamy, R.N. Aggregate-matrix interaction in concrete systems, Int. Conf. on "Structure, Solid Mech. and Eng. Design", Southampton, 1971.
252. Willis, J .R. Fracture mechanics of interfacial cracks, Journal of mech. and physics of solids, V 19, nr.6, 1971.
253. Yokomichi, H. /Fujii, T.
Instantaneous detection and mechanical behaviour of microcracking in concrete, Int. Conf. on Mechanical Behavior of Materials, Kyoto, japan, 1971.
1972
254. Atkinson, R. I Ko, H. A multiaxial device for testing rock materials, RILEM-symposium "The deformation and the rupture of solids subjected to multiaxial stresses", Cannes, 1972, V3, pp. 33-45.
255. Bertacchi, P. I Belotti, R. Experimental research on deformation and failure of concrete under triaxial loads, RILEM-symposium on "the Deformation and Rupture of Solids subjected to Multiaxial Stresses", Cannes, 1972, part I, "Concrete", pp. 37-52.
256. Buyukozturk, O. / Nilson, A.H. / Slate, F.O. Deformation and fracture of a particulate composite, Journal of Eng. Mech. Div., V98, 1972, pp. 581-593.
31
257. Dhir, R. /Sangha, C.
A study of the relationship between time, strength, defonnation and fracture of plain concrete, Magazine of concrete research, V24, nr.81, 1972, pp. 197-208.
258. Fujii, M. Bearing capacity of concrete block loaded through flexible plate, RU.EM-symposium "the defonnation and the rupture of solids subjected to multiaxial stresses", Cannes, 1972, V3, pp. 63-78.
259. Glomb, J. / Patas, P. Experimental analysis of the detennination of a test specimen as a method of verifying the compressing conditions while testing concrete in multi-way stress conditions, RII...EMsymposium " the defonnation and the rupture of solids subjected to multiaxial stresses", Cannes, 1972, V3, pp. 79-91.
260. Kobayashi, S. /Koyanagi, W. Fracture criteria of cement paste, mortar and concrete subjected to multiaxial compressive stress, RU.EM-symposium on "the Defonnation and Rupture of Solids subjected to multiaxial Stresses", Cannes, 1972, part I, "Concrete", pp. 131-148.
261. Liu, T.C. /Nilson, A.H./ Slate, F.O. Biaxial stress-strain relations for concrete, Journal of the Struct. Div., nr. ST-5, 1972, pp. 1025-1934.
262. Liu, T.C.Y. /Nilson, A.H./ Slate, F.O. Stress-strain response and fracture of concrete in uniaxial and biaxial compression, Journal of the ACI, V69, 1972, pp. 291-295.
263. Nelissen, L.J.M. Biaxial testing of normal concrete, Heron, V18, nr.l, 1972.
264. Newman, J.B./ Newman, K.
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265. Sangha, C. I Dhir, R. Strength and complete stress-strain relationship for concrete tested in uniaxial compression under different test conditions, Materiaux et constructions, V5, nr.30, 1972, pp. 361-370.
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267. Saucier, K.L.
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268. Spooner, D.
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269. Swamy, R.N.
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270. Wischers, G. / Lusche, M.
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1973
271. Diaz Santiago, S. I Hilsdorf, H.K. Fracture mechanisms of concrete under compressive loads, Cement and concrete research, V.3, pp. 363-388, 1973.
272. Green, S.J. /Swanson, S.R. Static constitutive relations for concrete, Techn. Rep. nr. AFWC-72-2, Terra Tek Inc., Salt Lake City, 1973.
273. Hobbs, D.W. Strength and deformation properties of plain concrete subjected to combined stress, Technical reports no.42.451 (1970, part 1) and 42.497 (1973, part 3) and RILEM-Symp. on "the Deformation and Rupture of Solids subjected to Multiaxial Stress", Cannes, 1972, pp. 97-111.
274. Hobbs, D.W.
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275. Kupfer, H. Das Verhalten des Betons unter mehrachsiger Kurzzeitbelastung unter besonderer Berilcksichtigung der zweiachsiger Beanspruchung, Deutscher Ausschuss flir Stahlbeton, Heft 229, 1973.
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276. Kupfer, H.B. Das nicht-lineaire Verhalten des Betons bei zweiachsiger Beanspruchung, Beton- und Stahlbetonbau, Vl 1, 1973, pp. 269-274.
277. Newman, J.B./ Newman, K. Criteria of concrete strength, reports 1,2 and 3, CIRIA contract, Imperial College, 1973.
278. Popovics, S. A numerical approach to the complete stress-strain curve of concrete, Cement and concrete research, V.3, 1973, pp. 583-599.
279. Santiago, S.D. I HiJsdorf, H.K. Fracture mechanics of concrete under compressive loads, Cement and concrete research, V3, 1973, pp. 363-388.
280. Schickert, G. On the influence of different load applications techniques on the lateral strain and fracture of concrete specimens, Cement and concrete research V3, nr.4, 1973, pp. 487-494.
281. Schickert, G. Verformungsverhalten von Betonproben fiir Spannbeton-Reaktordruckbehalter: Abzielen der Lasteintragung auf gleichmassige Spannungsverteilung oder auf gleichmassige Dehnungsverteilung?, Preprints 2nd Int Conf. on Structural mechanics in Reactor technology, Germany, 1973, V6A, Ch. 1/5 (11 pp.).
282. Schickert, G. /Weber, D. Ermittlung der Druckfestigkeit dlinner Betonproben, Wissensch. Berichte aus der Arbeit der Bundesanstalt filr Materialprilfung, 1973.
283. Sparks, P. /Menzies, J. The effect of rate of loading upon the static and fatigue strength of plain concrete in compression, Magazine of concrete research, V25, nr.83, 1973, pp. 73-80.
284. Spooner, D. A dilatometer for measuring the volume changes of concrete under load, Magazine of concrete research, V25, nt.84, 1973, pp. 173-176.
285. Spooner, D.C. /Pomeroy, C.D. Energy dissipating processes in the compression of cement paste and concrete, Cement and concrete research, V.3, 1973, pp. 481-486.
286. Stroeven, P.
Some aspects of the micromechanics of concrete, Thesis TU Delft, 1973.
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287. Stroeven, P.
Aggregation of structural components of concrete and its significance for materials research, CEB Int. Course on Structural Concrete, lecture L-13, 1973.
288. Stroeven, P. Fissuration in concrete specimens subjected to uniaxial compression: an engineering and a structural approach, CEB Int. Course on Structural Concrete, lecture L-14, 1973.
289. Stroeven, P. Structural aspects of concrete properties, CEB Int. Course on Structural Concrete, lecture L-15, 1973.
290. Swamy, R.N. / Kameswara Rao, C.V.S. Fracture mechanism in concrete systems under uniaxial loading, Cement and concrete research, V.3, 1973, pp. 413-427.
291. Uppal, J. I Kemp, K. An instability theory for failure of concrete, Magazine of concrete research, V25, 1973, pp. 21-30.
292. Zaitsev, J.W. /Wittmann, F.H. Fracture of porous viscoelastic materials under multiaxial state of stress, Cement and Concrete Research, V3, 1973, pp. 389-395.
1974
293. Dhir, R.K. /Sangha, C.M. Development and propagation of microcracks in plain concrete, Materiaux et constructions, nr.7, 1974, pp. 17-23.
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295. Haas, H.M. I Stroeven, P. Crack detection techniques in concrete materials research, 10th Annual Conf. of the British Soc. for Strain Measurement, Univ. of Warwick, 1974 (presented paper).
296. Hannant, D.J. Nomograms for the failure of plain concrete subjected to short-term multiaxial stresses, The structural engineer, V.52, nr. 5, 1974, pp. 151-165.
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297. Ko, H.Y. /Store, S.
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298. Naus, D.J. /Batson, G.B. /Lott, J.L. Fracture mechanics of concrete, Fracture mechanics of ceramics, eds. R.C. Bradt I D.P.H. Hasselmann I F.F. Lange, London, 1974, pp. 469-482.
299. O'Connell, RJ. / Budianski, B. Seismic velocities in dry and saturated cracked solids, Journal of geophys. research, V79, nr.35, 1974, pp. 5412-5426.
300. Palaniswamy, R. /Shah, S.P.
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301. Schickert, G. Acoustic emission technique applied to tests with concrete cubes, Proc. 2nd Int. RILEM Symp. on "New developments in non-destructive testing of nonmetallic materials", Rumania, 1974, V2, pp. 5-11.
302. Schickert, G. Zur Frage der Verlassichkeit der Ergebnisse von Betonprtifungen, Amts- und Mitteilungsblatt BAM, V 4, nr.3, 197 4, pp. 106-111.
303. Schickert, G. /Winkler, H. Vergleichende Untersuchungen mit Systemen zur zwangungsfreien Krafteinleitung in Betonproben, Kolloquium Arbeitskreis Spannbeton-Reaktordruckbehalter, Deutscher Ausschuss fiir Stahlbeton, 1974.
304. Schickert, G. /Winkler, H. Untersuchungsergebnisse zum mehraxialen Bruch- und Verfonnungsverhalten von Betonwtirfeln, Berichtstattung Uber das Projekt "Forschung und Entwicklung fiir Spannbeton-Reaktordruckbehalter", Deutscher Ausschuss ftir Stahlbeton, Vortragsband nr.3, 1974 (24 pp.).
305. Taylor, M. /Patel, B. The influence of path dependency and moisture conditions on the biaxial compression envelope for nonnal weight concrete, Journal of the ACI, V71, nr.12, 197 4, pp. 627-633.
306. Wittmann, F. / Zaitsev, J. Verfonnung und Bruchvorgang poroser Baustoffe bei kurzzeitiger Belastung und Dauerlast, Deutscher Ausschuss ftir Stahlbeton, Heft 232, 1974.
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307. Zein, M.
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1975
308. Bresler, B. / Bertero, V.V.
Influence of high strain rate and cyclic loading on behaviour of confined and unconfined concrete, Proc. 2nd Canadian Conf. on Earthquake Eng., Hamilton, Ontario, Canada (McMaster Univ.), 1975, pp. 15/1-15/38.
309. Chen, A.C.T. /Chen, W.F.
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310. Dornauer, H. /Lewandowski, R.
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311. KJink, S.
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312. Schleeh, W.
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313. Schleeh, W.
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314. Spooner, D.C. / Dougill, J.W.
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315. Stroeven, P.
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316. Wischers, G. /Dahms, J. Fetsigkeitsentwicklung des Be tons, Zement-Taschenbuch 197 4/197 5, Verein Deutscher Zementwerke, pp. 285-312.
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1976
317. Aschl, H. / Linse, D. / Stockl, S. Versuche zum Verhalten von Beton under mehrachsiger Beanspruchung, Report TU Milnchen, 1976.
318. Bazant, Z.P. Instability, ductility and size effect in strain-softening concrete, Journal of the Eng. Mech. Div., Vl02, nr. EM2, 1976, pp. 331-344.
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320. Carino, N.J. /Slate, F.O. Limiting tensile strain criterion for failure of concrete, Journal of the ACI, V73, nr.3, march 1976, pp. 160-165.
321. Dougill, J.W. On stable progressively fracturing solids, Journal of Applied Math. and Physics, V27, nr.4, 1976, pp. 423-437.
322. Kao, C.C. /Slate, F.O. Tensile-shear bond strength and failure between aggregate and mortar, Journal of Testing and Evaluation, V4, nr.2, 1976, pp. 148-150.
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324. Linse, D. / Stegbauer, A. Festigkeit und Verformungsverhalten von Beton unter hohen zweiachsigen konstanten Dauerbelastungen und Dauerschwellbelastungen, Deutscher Ausschuss filr Stahlbeton, Heft 254, 1976.
325. McCabe, W.M. /Koerner, R.M. /Lord, A.E. Acoustic emission behavior of concrete laboratory specimens, Journal of the ACI, V73, nr.7, pp. 367, 1976.
326. Spooner, D.C. /Pomeroy, C.D. / Dougill, J.W. Damage and energy dissipation in cement pastes in compression, Magazine of concrete research, V28, nr.94, 1976, pp. 21-29.
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327. Starovisky, P.
Response of concrete to multiaxial compression, Thesis Univ. of Colorado, 1976.
328. Steinsdorfer, F.
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330. Wiebenga, J.G. Influence of grinding or capping of concrete specimens on compressive strength results, TNO report BI-76-71/01.571.104, Delft.
1977
331. Andanaes, E. I Gerstle, K. I Ko, H.Y.
Response of mortar and concrete to biaxial compression, Journal of the Eng. Mech. Div., ASCE, V103, nr. EM4, aug. 1977, pp. 515-526.
332. Cedolin, L. I Crutzen, Y.R.J. I Dei-Poli, S.
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333. Gugelmann, B.
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334. Hermann, V. Spannungs-Dehnungs-Linien von Leichtbeton, Dissertation TH Aachen, 1977.
335. Hobbs, D.W. I Pomeroy, C.D. I Newman, J.B. Design stresses for concrete structures subjected to multi.axial stresses, The Structural Engineer, V55, nr.4, april 1977, pp. 151-164.
336. Kotsovos, M.D. I Newman, J.B.
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337. MelviIJe, P.H.
Fracture mechanics of brittle materials in compression, Int. Journal of Fracture, nr.13, 1977, pp. 532-534.
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338. Mihashi, H. I Izumi, M.
A stochastic theory for concrete fracture, Cement and concrete research, V7, 1977, pp. 411-422.
339. Perry, C. / Gillot, J.E. The influence of mortar-aggregate bond strength on the behaviour of concrete in uniaxial compression, Cement and Concrete Research, nr.7, 1977, pp. 553-564.
340. Reinhardt, H.W.
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341. Schickert, G. /Winkler, H.
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342. Yousef, M.A. Strength and deformation analysis of concrete under multiaxial stresses, Ph.D. Thesis, University of Colorado, Berkeley, 1977.
1978
343. Cleary, M.P.
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344. Gerstle, K. et al.
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345. Kaar, P.H./ Hanson, N.W. /Capell, H.T.
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346. Linse, D.
LOsung versuchstechnischer Fragen bei der Ermittlung des Festigkeits- und Verformungsverhaltens von Beton unter dreiachsiger Belastung, Deutscher Ausschuss flir Stahlbeton, Heft 292.
347. Lowe, P.G.
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348. Paterson, M.S.
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349. Perenchio, W.F. / Klieger, P.
Some physical properties of high-strength concrete, Res. & Dev. Bulletin RD056.01 T, Portland cement Association, 1978 (7 pp.).
350. Sture, S. I Ko, H. Y.
Strain softening of brittle geologic materials, Joum. Num. Anal. Meth. in Geo. Mech., V2, 1978, pp. 237-253.
351. Tasuji, M.E. /Slate, F.O. /Nilson, A.H.
Stress-strain response and fracture of concrete in biaxial loading, Journal of the ACI, V75, 1978, pp. 306-312.
352. Wang, P.T. /Shah, S.P. / Naaman, A.E. Stress-strain curves of nonnal and lightweight concrete in compression, Journal of the ACI, V75, nr.11, pp. 603-611.
353. Wischers, G.
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1979
354. Cervenka, V.
Behavior of concrete under low-cycle repeated loadings, AICAP-CEB Symposium, V2, Rome, 1979.
355. DiLeonardo, G.
Fracture toughness characterization of materials under multiaxial loading, Int. Journal of Fracture, V15, 1979, pp. 537-552.
356. Erdei, C.K.
A new load-transmitting medium to measure strength of brittle materials, Journal of Testing and Evaluation, JTEVA, V7, nr.6, 1979, pp. 317-325.
357. Grudemo, A.
Microcracks, fracture mechanism and strength of the cement paste matrix, Cement and concrete research, V9, 1979, pp. 19-34.
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358. Hoenig, A. Elastic moduli of a non-randomly cracked body, Int. Journal of Solids Struct., Vl5, 1979, pp. 137-154.
359. Holzhausen, G.R. /Johnson, A.M. Analysis of longitudinal splitting of uniaxially compressed rock cylinders, Int. J. of Rock. Mech. and Mining Sciences, V16, 1979, pp. 163-177.
360. Jayatilaka, A.S. Fracture of engineering brittle materials, Applied Science Publishers Ltd, London,1979.
361. Kotsovos, M.D. Effect of stress path on the behavior of concrete under triaxial stress states, Journal of the ACI, feb. 1979, pp. 213-223.
362. Mirza, S.A. / Hatsinikolas, M. /McGregor, J.G. Statistical descriptiuons of strength of concrete, Proceedings of the ASCE, Journal of the Struct.Div., ST6, V. 105,june 1979, pp. 1021-1037.
363. Newman, J.B. Concrete under complex stress, Developments in technology-I, ed. F. Lydon, Applied Science Publishers Ltd., London, 1979.
364. Stroeven, P. Morphometry of fiber reinforced cementitious materials, Materiaux et constructions, V 11, nr.61, 1978, pp. 31-38 AND Ibid, V12, nr.67, 1979, pp. 9-20.
365. Stroeven, P. Geometric probability approach to the examination of microcracking in plain concrete, Journal of materials science, nr.14, 1979, pp. 1141-1151.
366. Store, S. I Desai, C.S. Fluid cushion truly triaxial and multiaxial testing device, Geotechnical Testing Journal, GTJODJ, 2(1), 1979, pp. 20-33.
367. Swamy, R. Fracture mechanics applied to concrete, Developments in concrete technology, ed. F.D. Lydon, 1979.
368. Walker, H.N. /Marshall, B.F. Methods and equipment used in preparing and examining fluorescent ultrathin sections of portland cement concrete, Cement, concrete and aggregates, CCAGDP, V.1, nr.1, 1979, pp. 3-9.
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369. Weigler, H. / Klausen, D.
Die Schallemissionsanalyse, Betonwerk und Fertigteiltechnik, V4S, nr.12, 1979, pp. 709-716.
1980
370. Carrasquillo, R.L.
Microcracking and engineering properties of high-strength concrete, Report nr. 80-1, Cornell University, 1980.
371. Cleary, M.P. /Chen, I.W. /Lee, S.M.
Self consistent techniques for heterogeneous media, Journal of the Eng. Mech. Div., V106, nr. EMS, 1980, pp. 861-887.
372. Cook, D.J. / Chindaprasiert, P.
Influence of loading history upon the compressive properties of concrete, Magazine of concrete research, V28, nr.111, 1980, pp. 89-100.
373. Diamond, S. I Mindess, S. Scanning electron microscope observations of cracking in portland cement paste, Proc. Seventh International Symposium on the Chemistry of Cement, V3, VI-114-119, Paris, 1980.
374. Dougill, J.W. / Rida, M.A.M.
Further consideration of progressively fracturing solids, Journal of the Eng. Mech. Div., V106, nr. EMS, 1980, pp. 1021-1038.
375. Erdei, C.K.
Finite element analysis and tests with a new load-transmitting medium to measure compressive strength of brittle materials, Materials and structures, V13, 1980, pp. 83-90.
376. Gerstle, K.H. et al.
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377. Holm, T.A.
Physical properties of high strength lightweight aggregate concrete, Proc. 2nd Int. Congress on Lightweight Concrete, London, 1980, pp. 187-204.
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378. Kotsovos, M.D.
A mathematical model of the deformational behavior of concrete under generalised stress, based on fundamental material properties, Materials and structures, Vl3, 1980, pp. 289-298.
379. Kotsovos, M.D. /Newman, J.B.
A mathematical description of the deformational behaviour of concrete under generalised stress beyond ultimate strength, Journal of the ACI, V77, nr.5, 1980, pp. 340-346.
380. Mihashi, H. I Wittmann, F.H.
Stochastic approach to study influence of rate of loading on strength of concrete, HERON, V28, nr.3, 1980.
381. Mindess, S. I Diamond, S.
A preliminary SEM study of crack propagation in mortar, Cement and concrete research, VlO, nr.4, 1980, pp.509-519.
382. Peterson, P.E.
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383. Peterson, P.E.
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384. Schickert, G. Schwellenwerte beim Betondruckversuch, Deutscher Ausschuss fur Stahlbeton, Heft 312.
385. Walraven, J.C.
Aggregate interlock: a theoretical and experimental analysis, PhD. Thesis, TU Delft, 1980.
386. Walsh, J.B.
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1981
387. Ahmad, S.H.
Properties of confined concrete subjected to static and dynamic loading, PhD. Thesis, Univ. of Illinois, 1981.
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388. Avram, C. et al.
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389. Bazant, Z.P. /Oh, B.H. Concrete fracture via stress-strain relations, Report 81-10/665c, Center for Concrete and Geomaterials, NW Univ., 1981.
390. Carrasquillo, R.L. /Nilson, A.H./ Slate, F.O.
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391. Carrasquillo, R.L. /Slate, F.O. /Nilson, A.H.
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392. Fonseka, G.U. / Krajcinovic, D. The continuous damage theory of brittle materials. Part 2: Uniaxial and plane response modes, Journal of Applied Mech., 1981, pp. 816-824.
393. Gerstle, K.H. Simple formulation of biaxial concrete behavior, Journal of the ACI, V78, nr.5, 1981, pp. 62-68.
394. Gerstle, K.H.
Simple formulation of triaxial concrete behavior, Journal of the ACI, V78, nr.34, 1981, pp. 382-387.
395. Kotsovos, M.D. /Newman, J.B. Plain concrete under load - a new interpretation, IABSE Colloquium on Advanced Mechanics of Reinforced concrete, Delft, The Netherlands, 1981.
396. Krajcinovic, D. / Fonseka, G.U.
The continuous damage theory of brittle materials. Part 1: General theory, Journal of Applied Mech., 1981, pp. 809-815.
397. Mazars, J. Evolution of microcracks in concrete: the formation of cracks, Annales de l'ITBTP, Serie Beton-202, oct. 1981.
398.Mazars,J. Mechanical damage and fracture of concrete structures, Advances in fracture research, 5th Int. Conf. on Fracture, Cannes, 1981, V4, pp. 1499-1506.
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399. Mier, J.G.M. van
Multiaxial behavior of concrete - test methods and results, Survey of literature, Report TU Eindhoven, 1981, 129 pp.
400. Mura, T. Micromechanics of defects in solids, Martinus Nijhoff Publishers, 1981.
401. Neville, A.M.
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402. Ngab, A.S. /Slate, F.O. /Nilson, A.H.
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403. Peterson, P.E. Crack growth and development of fracture zones in plain concrete and similar materials, PhD. Thesis, Lund Institute of Technology, Sweden, 1981.
404. Shah, S.P.
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405. Shah, S.P. / Gokoz, U. /Ansari, F.
Experimental technique for obtaining complete stress-strain curves for high-strengthconcrete, Cement, Concrete and Aggregates, V3, 1981, pp. 21-27.
406. Sib, G.C. /Mirabile, M. (eds)
Analytical and experimental fracture mechanics, Sijthoff/Noordhoff, 1981.
407. Terrien, A./ Bergues, J. Study of concrete's cracking under multiaxial stresses, 5th International Conference on Fracture, Cannes, 1981.
408. Walraven, J.C./ Reinhardt, H.W.
Concrete mechanics, part A - Theory and experiments on the mechanical behaviour of cracks in plain and reinforced concrete subjected to shear loading, HERON, V26, nr.lA, 1981.
409. Ziegeldorf, S. /Millier, H.S. / Hilsdorf, H.K.
Effect of aggregate particle size on mechanical properties of concrete, 5th International Conference on Fracture, Cannes, 1981, pp. 2243-2252.
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1982
410. Ahmad, S.H. /Shah, S.P. Complete triaxial stress-strain curves for concrete, Journal of the Struct. Division, V108, nr. ST4, 1982, pp. 728-742.
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412. Buyukozturk, O. / Zisman, J.G.
Behavior of concrete in biaxial cyclic compression, Research paper, Massachussets Institute of Technology, 1982.
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415. Feineis, N. Anwendung der Schallemissionsanalyse (SEA) als zerstorungsfreies Prilfungsverfahren fiir Beton, Dissertation TH Darmstadt, 1982.
416. Heyne, K.H.
Uber den Einfluss der Endflachenreibung bei Versuchen im echten Triaxialgerat, Zeitschrift fur angewandte Geologie, Bd. 28, Heft 9, 1982, pp. 446-453.
417. Kotsovos, M.D.
A fundamental explanation of the behaviour of reinforced concrete beams in flexure based on the properties of concrete under multi.axial stress, Materials and structures, V15, nr.90, 1982, pp. 529-537.
418. Maher, A. I Darwin, D.
Mortar constituent of concrete in compression, Journal of the ACI, V79, nr.2, 1982, pp. 100-109.
419. Martinez, S. /Nilson, A.H./ Slate, F.O.
Spirally reinforced high strength concrete columns, Research report nr. 82-10, Dept. of Struct. Eng., Cornell University, 1982.
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420. Minde~, S. I Diamond, S.
The cracking and fracture of mortar, Materiaux et constructions, V15, nr.86, 1982, pp. 107-113.
421. Montague, P. I Kornli, K. Constitutive relationships and a failure criterion for concrete based on fundamental material properties, Magazine of concrete research, V. 34, nr. 118, 1982, pp. 35-43.
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1983
423. Buyukozturk, O. /Tseng, T.M. Behavior of concrete in biaxial cyclic compression, Research paper, Massachussets Institute of Technology, 1983.
424. Darwin, D. / Attiogbe, E.K. Load induced cracks in cement paste, Proc. of the Fourth Eng. Mech. Div. Speciality Conference, New York, 1983, pp. 1051-1054.
425. Diederichs, U. /Schneider, U. /Terrien, M. Formation and propagation of cracks and acoustic emission, Fracture mechanics of concrete, Developments in civil engineering 7, ed. F.H. Wittmann, Elsevier, 1983.
426. Fardis, M.N. / Alibe, B. / T~oulas, J.L. Monotonic and cyclic constitutive law for concrete, Journal of engineering mechanics, V.109, nr. 2, 1983, pp. 516-536.
427. Ingraffea, A.R.
Fracture propagation in rock, Preprints W. Prager Symp. on "Mechanics of geomaterials: rocks, concretes, soils", ed. Z.P. Bazant, NW Univ., Evanston, 1983, pp. 227-279.
428. Jacquot, P. / Rastogi, P.K.
Speckle metrology and holographic interferometry applied to the study of cracks in concrete, Fracture mechanics of concrete, Developments in civil engineering 7, ed. F.H. Wittmann, Elsevier, 1983.
429. Kotsovos, M.D. Effect of testing techniques on the post-ultimate behavior of concrete in compression, Materials and structures, Vl6, nr.91, 1983, pp. 3-12.
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430. Lierse, J JRingkamp, M. Investigations into cracked reinforced concrete structural elements with the aid of photoelastic methods, Fracture mechanics of concrete, Developments in civil engineering 7, ed. F.H. Wittmann, Elsevier, 1983.
431. Mihashi, H. A stochastic theory for fracture of concrete, Fracture mechanics of concrete, ed. F.H. Wittmann, Elsevier, 1983, pp. 301-339.
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433. RILEM
Procedure for the certification of a concrete cube compression testing machine by intercomparison using cube testing on a reference machine at an approved laboratory, 14-CPC Draft recommendation, Materials and structures, V.16, nr. 96, 1983, pp. 397-404.
434. Scavuzzo, R. /Cornelius, H.V. /Gerstle, K.H. /Ko, H.Y. / Stankowski, T. Simple formulation of concrete response to multiaxial load cycles, Int. Conf. on "Constitutive laws for Engineering Materials", eds. C.S. Desai I G.H. Gallagher, Tucson, 1983, pp. 421-426.
435. Scavuzzo, R. / Stankowski, T. /Gerstle, K.H. /Ko, H.Y.
Stress-strain curves for concrete under multiaxial load histories, NSF CME-80-01508, Dept. of Civil Eng., Univ. of Colorado, Boulder, 1983.
436. Schneider, U. /Diederichs, U.
Detection of cracks by mercury penetration measurements, Fracture mechanics of concrete, Developments in civil engineering 7, ed. F.H. Wittmann, Elsevier, 1983.
437. Shah, S.P. / Naaman, A.E. /Moreno, J. Effect of confinement on the ductility of lightweight concrete, Int. J. of Cement Composites and Lightweight Concrete, VS, nr.1, 1983, pp. 15-25.
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440. Slate, F.O. X-ray technique for studying cracks in concrete, with emphasis on methods developed and used at Cornell University, Fracture mechanics of concrete, Developments in civil engineering 7, ed. F.H. Wittmann, 1983
441. Stankowski, T. Concrete under multiaxial load histories, M.S. Thesis, University of Colorado, Dept. of civil, environmental and architectural engineering, 1983.
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Crack propagation in a composite material, Fracture mechanics of concrete, ed. F.H. Witunann, Elsevier, 1983.
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446. Bazant, Z.P. Size effect in blunt fracture: concrete, rock, metal, Journal of Eng. Mech., VllO, nr.4, 1984, pp. 518-535.
447. Bergues, J. /Charpentier, J.P./ Terrien, M. Study of concrete's cracking under triaxial loadings, Proc. of RILEM-CEB Symp. on Concrete under multiaxial conditions, Toulouse, 1984, V.1, pp. 41-52.
448. Bicanic, N. / Sture, S. /Hurlbut, B. /Day, S. On the prediction of the peak and post-peak behavior of concrete structures, Int. Conf. on Comp. Aided Analysis and Design of Concrete Structures, Split, Yugoslavia, 1984 (paper).
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450. Cedolin, L. I Mu1as, M.G.
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453. El-Rahman, M. /Shrive, N.G. Crack initiation in multiaxial compressive stress fields, Proc. of RILEM CEB Symp. on Concrete under Multiaxial Conditions, INSA Toulouse, 1984, pp. 220-229.
454. Fafitis, A. I Shah, S.P.
A cyclic constitutive model for concrete, roe. of RILEM-CEB Symp. on Concrete under multiaxial conditions, Toulouse, 1984, V.1, pp. 202-209.
455. Habib, P. Quelques remarques relatives a la modelisation du radoucissement, Proc. of the International Conference on Concrete under Multiaxial Conditions, Toulouse, 1984.
456. Han, D.J. /Chen, W.F. On constitutive modelling of concrete materials, Proc. RILEM-CEB Symp. on Concrete under multiaxial conditions,Toulouse, 1984, V.1, pp. 210-219.
457. Jacquot, P.
Interferometry in scattered coherent light applied to the analysis of cracking in concrete, Fracture mechanics of concrete: material characterization and testing, ed. A. Carpinteri I A.R. Ingraffea, Martinus Nijhoff Publishers, 1984.
458. Jamet, P. /Millard, A./ Nahas, G.
Triaxial behavior of a microconcrete complete stress-strain curves for confining pressures ranging from 0 to 100 MPa, RILEM-CEB-Symposium Concrete under Multiaxial Conditions, Vl, INSA Toulouse, 1984, pp. 1227-1241.
459. Ko, HAY./ Meier, R. /Store, S. Constitutive properties of steel-fibered reinforced concrete in multiaxial compression and combined tension and compression, Proc. RILEM-CEB Symposium on Concrete under Multiaxial Conditions, INSA Toulouse, 1984.
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460. Kotsovos, M.D.
Concrete - a brittle fracturing material, Materials and structures, V 17, 1984, pp. 107-114.
461. Kotsovos, M.D.
Deformation and failure of concrete in a structure, RILEM-CEB Symposium on "Concrete under Multiaxial Conditions", INSA Toulouse, 1984, Vl, pp. 104-113.
462. Lade, P.V.
Failure criterion for frictional materials, Mechanics of engineering materials, Eds. C.S. Desai I R.H. Gallagher, 1984, pp. 385-402
463. Mazars, J.
Application de la mecanique de l'endommagement au comportement non lineaire et a la rupture du beton de structure, These d'Etat, Universite de Paris VI.
464. Mazars, J.
Description of multi.axial behavior of concrete with an elastic damaging model, Proc. RILEM-CEB Symposium on Concrete under Multi.axial Conditions, INSA Toulouse, Vl, 1984, pp. 190-200.
465. Michelis, P.N. / Demiris, C.A.
Conception et construction d'une vraie cellule triaxiale, C.R. Acad. Sc. Paris, t.299, serie II, nr.8, pp. 375-378.
466. Mier, J.G.M. van
Strain softening of concrete under multi.axial loading conditions, PhD. Thesis, Technical University Eindhoven.
467. Mier, J.G.M. van
Complete stress-strain behaviour and damaging status of concrete under multiaxial conditions, RILEM-CEB Symposium on "Concrete under Multiaxial Conditions", INSA Toulouse, 1984, Vl, pp. 75-85.
468. Nojiri, Y. / Kotani, K. /Abe, Y.
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469. Ottosen, N.S.
Evaluation of concrete cylinder tests using finite elements, Journal of Eng. MEch., V 110, nr.3, 1984, pp. 465-481.
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470. Read, H.E. / Hegemier, G.A.
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471. Reinhardt, H.W. /Cornelissen, H.A.W.
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472. Shah, S.P.
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474. Stankowski, T. /Gerstle, K.H.
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475. Steif, P.S.
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477. Willam, K.J.
Experimental and computational aspects of concrete fracture, Int Conf. on Comp. Aided Analysis and Design of Concrete Structures, Split, Yugoslavia, 1984 (invited paper).
478. Winkler, H.
Fundamental investigations on the influence of test-equipment on multiaxial test results of concrete, Ril..EM-CEB Symposium on "Concrete under Multiaxial Conditions", INSA Toulouse, 1984, VI, pp. 9-19.
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1985
479. Berthelot, J.M./ Robert, J.L.
Damage process characterization in concrete by acoustic emission, Second International Conference on Acoustic Emission, Lake Tahoe, Nevada, 1985, ,pp. S300-S303.
480. Carreire, D.J. /Chu, K.
Stress-strain relationship for plain concrete in compression, ACI Journal, November 1985, pp. 797-804.
481. Chen, E., Buyukozturk, 0.
Constitutive model for concrete in cyclic compression, Journal of engineering mechanics, ASCE, V.111, nr. 6, 1985, pp. 797-814.
482. Diamond, S. I Bentur, A. On the cracking in concrete and fiber-reinforced cements, Application of fracture mechanics to cementitious composites, ed. S.P. Shah, Nijhoff Publishers, pp. 87-140, 1985.
483. Horii, H. / Nemat-Nasser, S.
Compression-induced microcrack growth in brittle solids: Axial splitting and shear failure, J. Geophys. Res., nr.90, 1985, pp. 3105-3125.
484. Hurlbut, B.S.
Experimental and computational investigation of strain-softening of concrete, PhD. Thesis, University of Colorado, Boulder, 1985.
485. Klisinski, M.
Degradation and plastic defonnation of concrete, IFTR Report nr.38, Polish Acad. of Sciences, Warsaw, 1985
486. Michelis, P.N.
A true triaxial cell for low and high pressure experiments, Int J. Rock. Mech. Min. Sci. & Geomech. Abstr., V22, nr.3, pp. 183-188.
487. Michelis, P.
Polyaxial yielding of granular rock, Journal of Engineering mechanics, V .111, nr. 8, 1985, pp. 1049-1066
488. Mier, J.G.M. van
Influence of damage orientation distribution on the multi.axial stress-strain behaviour of concrete, Cement and concrete research, V15, nr.5, pp.849-862.
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489. Okubo, S. / Nishimatsu, Y.
Uni.axial compression testing using a linear combination of stress and strain as the control variable, Int. Journal Rock Mech. Sci. & Geomech. Abstr. V.22, nr.5, 1985, pp. 323-330.
490. Stankowski, T. /Gerstle, K.H.
Simple formulation of concrete behavior under multiaxial load, Journal of the ACI, V82, nr.20, 1985, pp. 213-221.
491. Willam, K. I Hurlbut, B. I Sture, S.
Experimental, constitutive and computational aspects of concrete fracture, Proc. Seminar on Finite Element Analysis of Reinforced Concrete Structures, Tokyo, 1985, pp. 149-172.
492. Winkler, H. Grundsatzliche Untersuchungen zum Gerateeinfluss bei der mehraxialen Druckprilfung von Beton, Deutscher Ausschuss flir Stahlbeton, Heft 366, 1985.
1986
493. Ahmad, S.H. /Shah, S.P. / Khaloo, A.R.
Orthotropic model of concrete for triaxial stresses, Journal of structural engineering, ASCE, V.112, nr. 1, 1986, pp. 165-181.
494. Ansari, F.
Analysis of microcracked zone in concrete, Fracture toughness and fracture energy of concrete, ed. F.H. Wittmann, Elsevier, 1986.
495. Bazant, Z.P. /Bishop, F.C. /Chang, T.P. Confined compression tests on cement paste and concrete up to 300 ksi, Journal of the ACI, V83, nr.48, 1986, pp. 553-560.
496. Bazant, Z.P. /Pfeiffer, P.A.
Shear fracture tests of concrete, Materials and structures, V19, nr.110, 1986, pp. 110-121.
497. Berthaud, Y.
An ultrasonic testing method: an aid for material characterization, preprints Proc. of SEMRILEM International Conference on Fracture of Concrete and Rock, Houston, ed. S.P. Shah I S.E. Swartz, 1987, pp. 644-654.
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Das Tragverhalten von Beton - Einfluss der Festigkeit und der Erhartungsbedingungen, Thesis, ,TH Darmstadt.
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499. Carpinteri, A.
Mechanical damage and crack growth in concrete, Martinus Nijhoff Publishers, 1986.
500. Chhuy, S. /Cannard, G. /Robert, J.L. /Acker, P. Experimental investigations into the damage of cement concrete with natural aggregates, Brittle Matrix Composites 1, eds. A.M. Brandt I l.H. Marshall, Elsevier, 1986, pp. 341-354.
501. Cornelissen, H.A.W. / Hordijk, D.A. /Reinhardt, H.W. Experiments and theory for the application of fracture mechanics to normal and lightweight concrete, Fracture toughness and fracture energy of concrete, ed. F.H. Wittmann, Elsevier, 1986, pp. 565-575.
502. Fafitis, A. I Shah, S.P. Constitutive model for biaxial cyclic loading of concrete, Journal of engineering mechanics, V.112, nr. 8, 1986, pp. 760-775.
503. Faruque, M.O. I Chang, C.J. New cap model for failure and yielding of pressure-sensitive materials, Journal of engineering mechanics, V.112, nr. 10, 1986, pp. 1041-1053.
504. Horii, H. I Nemat-Nasser, S. Brittle failure in compression: splitting, faulting and brittle-ductile transaction, Phil. Trans. R. Soc., London, A319, 1986, pp. 337-374.
505. Knab, I./ Jennings, H. /Walker, H.N. /Clifton, J.R. Techniques to observe the fracture zone in mortar and concrete, Fracture toughness and fracture energy of concrete, ed. F.H. Wittmann, Elsevier, 1986.
506. Luong, M.P. Infrared vibrothermography of plain concrete, Fracture toughness and fracture energy of concrete, ed. F.H. Wittmann, Elsevier, 1986.
507. Mier, J.G.M. van
Multiaxial strain-softening of concrete, Materials and structures, V19, nr.111, 1986, pp. 179-200.
508. Mier, J.G.M. van
Fracture of concrete under complex stress, HERON, V31 (3), 1986.
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510. Reinhardt, H.W.
Various techniques for the assessment of the damage zone between two saw cuts, Cracking and damage, eds. J. Mazars I Z.P. Bazant, Elsevier, 1986.
511. Rokugo, K. / Iwase, H. /Koyanagi, W. Application of fracture energy of concrete in compression to section design of reinforced concrete members, Fracture toughness and fracture energy of concrete, ed. F.H. Wittmann, Elsevier, 1986.
512. Rokugo, K. /Ohno, S. /Koyanagi, W.
Automatical measuring system of load-displacement curves including post-failure region of concrete specimens, Fracture toughness and fracture energy of concrete, ed. F.H. Wittmann, Elsevier, 1986.
513. Torrenti, J.M. Some remarks on concrete softening, Materiaux et constructions, V19, nr.113, 1986, pp. 391-394.
514. Willam, K. /Hurlbut, B. /Store, S.
Experimental, constitutive and constitutive aspects of concrete failure, Proc. Seminar on Finite element Analysis of Reinforced Concrete Structures, Tokyo, 1986, pp. 226-254.
1987
515. Berthaud, Y.
An ultrasonic testing method: an aid for material characterization, SEMIRILEM International conference on Fracture of Concrete and Rock, Houston, 1987, Eds. S.P. Shah I S.E. Swartz, pp. 644-654
516. Delibes Liniers, A.
Microcracking of concrete under compression and its influence on tensile strength, Materials and structures, V20, nr.116, 1987, pp. 111-116.
517. Hassanzadeh, M. I HilJerborg, A.
Theoretical analysis of test methods, SEMIRILEM International conference on Fracture of Concrete and Rock, Houston, 1987, Eds. S.P. Shah I S.E. Swartz, pp. 388-395.
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Fracture propagation of concrete under complex stress, Fracture of concrete and rock, ed. S.P. Shah I S.E. Swartz, 1987, pp.597-610.
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519. Nilson, A.H. High strength concrete: an overview of Cornell research, Proc. "Utilization of high strength concrete", Stavanger, Norway, 1987, pp. 27-38.
520. Scrivener, K.L. I Pratt, P.L. The characterization and quantification of cement and concrete microstructures, Proc. 1st RILEM Int. Conf. "From material science to construction materials engineering", Versailles, 1987, ed. J.C. Maso, pp. 61-68.
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526. Torrenti, J.M./ Royis, P. Design and study of behaviour of brush bearing platens by the finite element method, Second International Conference on advances in numerical methods in engineering, Swansea, 1987.
527. Torrenti, J.M./ Acker, P. Influence de la teneur en eau sur le comportement a court terme du beton, Journees de physique, 1987.
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1988
531. Brandt, I./ Jensen, A.D. / Strunge, H.
Microcracking in concrete, method to quantify microcracks on thin sections, AFREM European Conference on cracking of concrete and durability of constructions, St. Remy les Ch., pp. 1.45-1.54, 1988.
532. Maji, A.K. /Shah, S.P.
Process zone and acoustic emission measurements in concrete, Experimental mechanics, march 1988, pp. 27-31.
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Bonding in cementitious composites, Materials Research Society Symposium Proceedings, 114, 1988.
535. Nelson, E.LJ Carrasquillo, R.L. /Fowler, D.'\V.
Behavior and failure of high-strength concrete subjected to biaxial-cyclic compression loading, ACI Materials journal, July/August 1988, pp. 248-253.
536. Ringot, E.
Automatic quantification of microcracks network by stereological method of total projections in mortars and concretes, Cement and concrete research, V.18, 1988, pp. 35-43.
537. Ringot, E.
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538. Su, E.C. /Hsu, T.T.C.
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539. Yip, W.K. /Tam, C.T.
Concrete strength evaluation through the use of small diameter cores, Magazine of concrete research, V.40, nr. 143, 1988, pp. 105.
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Some aspects of tensile fracture behaviour and structural response of cementitious materials, Report TVBM-1008, Div. of building materials, Lund Institute of Technology, 1988.
1989
541. ACI Committee 363
State-of-the-art report on high strength concrete, ACI Manual of concrete practice 1989, part I - Materials and general properties of concrete, pp. 363Rl-363R48.
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Identification of strain-softening constitutive relation from uni.axial tests by series coupling model for localization, Cement and concrete research, V.19, 1989, pp. 973-977.
543. Blechman, I.
Stage model of stress-strain relationship of concrete under short-term load, Cement and concrete research, V.19, 1989, pp. 203-215.
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Experimental investigations on the damage of Portland cement concrete with natural aggregates, Materials and structures, V22, 1989, pp. 98-106.
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Fracture energies of high-strength concrete in compression, Proc. from the International Conference on Recent Developments in the Fracture of Concrete and Rock, Cardiff, UK, 1989.
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Image analysis of microcracks, Cracking and Damage - strain localization and size effect, eds. Mazars, J. / Bazant, Z.P., Elsevier Applied Science, 1989.
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Size effects and brittleness, Fracture mechanics of concrete structures, RILEM report 3, ed. L. Elfgren, Chapman & Hall, 1989, pp. 191-207.
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548. Elfgren, L. (ed)
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549. Goudswaard, I./ Vonk, R.A. Een detectiemethode voor inwendige scheuren van betonproefstukken, Report TUEBK0-89.12, TU Eindhoven, 1989.
550. Hillerborg, A.
Stability problems in fracture mechanics testing, Fracture of concrete and rock: recent developments, eds. S.P. Shah I S.E. Swartz I B. Barr, Elsevier, 1989, pp. 3699-378.
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554. Maji, A.K. I Shah, S.P. / Tasdemir, M.A.
A study of mixed-mode crack propagation in mortar using holographic interferometry, Proc. of SEM Spring Conference, Boston, 1989, pp. 210-217.
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Cracking and damage - strain localization and size effect, Elsevier Applied Science, 1989.
556. Mier, J.G.M. van Fracture propagation in concrete under complex stress, SEM/RILEM International Conference on Fracture of Concrete and Rock, Houston, Texas, June 1987, Eds. S.P. Shah I S.E. Swartz, 1989, pp. 362-375.
557. Reinhardt, H.W. Basic types of failure, Fracture mechanics of concrete structures - from theory to applications, Chapman and Hall, 1989, pp. 6-15.
558. Scholz, U. Verhalten von Beton unter mehrachsiger Beanspruchung bei Kurzzeitbelastung, Ph.D. Thesis, TU Milnchen, 1989.
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559. Shah, S.P. Experimental observation of cracking and damage, Cracking and damage, eds. J. Mazars I Z.P. Bazant, Elsevier, 1989.
560. Shah, S.P. / Maji, A.K. Application of acoustic emission and laser holography to study microfracture in concrete, ACI Special Publ. 112-5, 1989.
561. Shah, S.P. /Swartz, S.E. /Barr, B. (eds) Fracture of concrete and rock: recent developments, Elsevier, 1989.
562. Shah, S.P J Swartz, S.E. (eds) Fracture of concrete and rock, Springer-verlag, 1989.
563. Shehata, I. I Shehata, L. Compressive strength of concrete elements with variable dimensions, Materials and structures, V.22, 1989, pp. 264-268.
564. Smith, S.S./ Willam, K.J. /Gerstle, K.H. / Sture, S. Concrete over the top, or: is there life after the peak?, ACI Materials Journal, V86, nr. M45, 1989, pp. 491-497.
565. Tasdemir, M.A. I Maji, A.K. /Shah, S.P. Crack initiation and propagation in concrete under compression, Journal of Eng. Mech. Div., 1989.
566. Torrenti, J.M./ Desrues, J. /Acker, P. /Boulay, C. Application of stereophotogrammetry to the strain localization in concrete compression, Cracking and damage, ed. J. Mazars I Z.P. Bazant, Elsevier, London, pp. 30-41.
567. Vonk, R.A. Influence of boundary conditions on softening of concrete loaded in compression, Report TUE-BK0-89.14, TU Eindhoven 1989.
568. Vonk, R.A. /Rutten, H.S. /Mier, J.G.M. van I Fijneman, H.J. Influence of boundary conditions on softening of concrete loaded in compression, Fracture of concrete and rock: recent developments, ed. S.P. Shah I S.E. Swartz I B. Barr, Elsevier, 1989, pp. 711-720.
569. Vonk, R.A. Unifonnity of defonnations in compression tests on concrete, Report TU Eindhoven, The Netherlands.
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570. Yin, W.S. /Su, E.C.M. /Mansur, M.A./ Hsu, T.T.C.
Biaxial tests of plain and fiber concrete, ACI Materials journal, May/June 1989, pp. 236-243.
1990
571. Bierwirth, H. / StoeckJ, S. /Kupfer, H. Development of a test-equipment for triaxial loaded mortar specimens, Schlussbericht zu den DFG-Forschungsvorhaben Ku 239/59-1 und 59-2 "Werkstoffgesetze von Mauerwerkkomponenten bei Dreiachsiger Beanspruchung", TU Miinchen, 1990, 23 pp.
572. FIP/CEB
High strength concrete - state of the art report, FIP, bulletin d'infonnation 197, 1990.
573. Kvernadze, A.M. et al.
A study of hardening and shrinkage of concrete in the early stages by holographic interferometry, Soviet journal of concrete and reinforced concrete, V4, nr.4, 1990, pp. 21-25.
574. Mier, J.G.M. van I Nooru-Mohamed, M.B. Geometrical and structural aspects of concrete fracture, Engineering fracture mechanics, V35, nr. 4/5, 1990, 17-628.
575. Olsen, N.H.
Uniaxial stress-strain curves of high strength concrete, PhD. Thesis, TU Denmark, Lyngby, march 1990.
576. Smadi, MI Slate, F.O.
Microcracking of high and nonnal strength concretes under short- and long-tenn loading, ACI Materials Journal, March-April 1990.
577. Torrenti, J.M./ Djebri, B.
Constitutive laws for concrete: an attempt of comparison, Computer Aided Analysis and Design of Concrete structures: Proc. of SCI-C 1990, 2nd International conference, Zell am See, Austria, 1990, Eds, N. Bicanic I H.A. Mang, 1990, pp. 871-882.
578. Vonk, R.A. /Rutten, H.S. /Mier, J.G.M. van I Fijneman, H.J.
Size effect in softening of concrete loaded in compression, Fracture behaviour and design of materials and structures, ed. D. Firrao, EMAS, 1990, pp. 285/1-285/6.
579. Vonk, R.A. /Rutten, H.S. /Mier, J.G.M. van I Fijneman, H.J. Constitutive model describing interface behaviour with tensile and shear softening, Report TU Eindhoven, The Netherlands.
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1991
580. Bazant, Z.P. (ed)
Current trends in concrete fracture research, Kluwer Academic Publishers, 1991.
581. CEB-FIP Model code 1990, section 2.1., 1991.
582. Elfgren, L. /Shah, S.P. (eds)
Analysis of concrete structures by fracture mechanics, Chapman and Hall, 1991.
583. GJavind, M. I Stang, H.
Evaluation of the complete compressive stress-strain curve for high strength concrete, Fracture processes in concrete, rock and ceramics, ed. J. van Mier I J. Rots I A. Bakker, E & FN Spon, London, pp. 749-759.
584. HiJlerborg, A.
Size dependency of the stress-strain curve in compression, Analysis of concrete structures by Fracture Mechanics, RILEM report 6, ed. L. Elfgren I S.P. Shah, Chapman & Hall, 1991, pp. 171-178.
585. Horii, H. / lchinomiya, T.
Observation of fracture process zone by laser speckle technique and governing mechanism of fracture of concrete, Current trends in concrete fracture research, ed. Z.P. Bazant, 1991.
586. Kamp, W. /Cockram, M.J.
Yield envelope investigation of felser sandstone with true triaxial compression tests including post failure behaviour, Fracture processes in concrete, rock and ceramics, ed. J.G.M. v. Mier I J.G. Rots I A. Bakker, E & F Spon, 1991.
587. Maji, A.K. I Shah, S.P.
Laser interferometry methods, Fracture mechanics of concrete Test methods, eds. S.P. Shah I A. Carpinteri, 1991.
588. Maji, A.K. I Shah, S.P. Mixed mode fracture in compression, Analysis of concrete structures by fracture mechanics, ed. L. Elfgren I S.P. Shah, 1991.
589. Mier, J.G.M. van
Mode I fracture of concrete: discontinuous crack growth and crack interface grain bridging, Cement and concrete research, V21, nr.1, 1991, pp. 1-15.
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590. Mier, J.G.M. van/ Nooru-Mohamed, M.B. /Timmers, G. An experimental study of shear fracture and aggregate interlock in cement-based composites, HERON, V36, nr.4, 1991.
591. Mier, J.G.M. van I Rots, J.G. /Bakker, A. (eds) Fracture processes in concrete, rock and ceramics, E & FN Spon, 1991.
592. Mier, J.G.M. van I Vonk, R.A. Fracture of concrete under multi.axial stress - recent developments, 53-MTC Final Report, Materials and structures, nr. 24, 1991, pp. 61-65.
593. Minde~, S. Fracture process zone detection, Fracture mechanics test methods for concrete, ed. S.P. Shah I A. Carpinteri, 1991.
594. Sarkar, S.L. High strength concrete and its microstructure, Progress in cement and concrete, ed. S.N. Ghosh, 1991, pp. 380-417.
595. Schlangen, E. /Mier, J.G.M. van Experimental and numerical analysis of micromechanisms of fracture of cementbased composites, Report 25.5-91-1, Stevin Laboratory, TU Delft, 1991.
596. Shah, S.P. / Carpinteri, A. (eds) Fracture mechanics test methods for concrete, Chapman and Hall, 1991.
597. Taerwe, L.
Brittleness versus ductility of high strength concrete, Structural Engineering International, IABSE, V4, 1991, pp. 40-45.
598. Torrenti, J.M./ Desrues, J. / Benija, E.H. /Boulay, C. Stereophotogrammetry and localization in concrete under compression, Journal of engineering mechanics, V117, 1991, pp. 1455-1465.
599. Vonk, R.A. /Rutten, H.S. /Mier, J.G.M. van I Fijneman, H.J. Micromechanical simulation of concrete softening, Fracture proce~es in concrete, rock and ceramics, eds. J.G.M. van Mier I J.G. Rots I A. Bakker, E & FN Spon, 1991.
600. Yamaguchi, E. I Chen, W. Microcrack propagation study of concrete under compression, Journal of engineering mechanics, V117, 1991, pp. 653-673.
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1992
601. Bazant, Z.P. (ed)
Fracture mechanics of concrete structures, Proc. of the First International Conference on Fracture mechanics of concrete structures, Breckenridge, Colorado, 1992.
602. Blechman, I.
Differential equation of concrete behaviour under uniaxial short-term compression in terms of atrophy (degeneration) and its solution, Magazine of concrete research, V.44, nr. 159, 1992,pp. 107-115.
603. Bongers, J.P.W.
Concrete behaviour under multiaxial loading conditions - Modelling in a finite element package, Graduate Thesis, TU Eindhoven, The Netherlands.
604. Petkovic, G. / Lenschow, R.
Properties of concrete related to fatigue damage, Fracture and damage of concrete and rock- FDCR2, ed. by H.P. Rossmanith, E&FN Spon, 1993, pp. 217-226.
605. Rokugo, K. /Koyanagi, W.
Role of compressive fracture energy of concrete on the failure behavior of reinforced concrete beams, Applications of fracture mechanics to reinforced concrete, ed. A Carpinteri, Elsevier, 1992.
606. Vonk, R.
Softening of concrete loaded in compression, PhD Thesis, TU Eindhoven, The Netherlands, 1992.
607. Wirgot, S.
Quantitative analysis of hardened concrete by petrographic microscope, Cement, nr.11, 1992, pp. 35-40 (in Dutch).
1993
608. Gerstle, K.H.
Concrete research at the University of Colorado, Studi e Recherche, Politechnico di Milano, V.14, 1993, pp. 71-102.
609. Rossmanith, H.P. (ed)
Fracture and damage of concrete and rock (FDCR-2), Chapman & Hall, E & FN Spon, 1993.
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610. Stys, D.
Influence of microstructure on the strain softening of concrete under compression, Report, Dept. of Struct. Eng., TU Eindhoven, 1993.
611. Taerwe, L. Empirical analysis of the fracture process in high strength concrete loaded in uniaxial compression, Fracture and damage of concrete and rock, ed. H.P. Rossmanith, 1993.
612. Torrenti, J.M./ Djebri, B. / Bascoul, A.
Biaxial compression of concrete: influence of the stress path (on concrete strains), Materials and structures, nr. 26, 1993, pp. 181-184.
613. Zubkov, V.A. / Smerkov, I.V. / Zubkov, E.B.
A new method of detennining the strength of concrete, Russian Journal of concrete and reinforced concrete, V.7, nr. 4, 1993, pp. 12-17.
1994
614. Baker, G. Interface fracture energy and aggregate size effects in particulate solids, IUT AM Symposium on Size-scale effects in the failure mechanism of materials and structures, Torino, Italy, 1994.
615. Bongers, J.P.W.
Softening behaviour of concrete loaded in multiaxial compression, Computational Modelling of Concrete and Structures, Proceedings EURO-C 1994 International Conference, Innsbruck, Austria, 1994, pp. 302-312.
616. Bongers, J.P.W.
Constitutive models describing concrete continuum and local material behaviour, Report TU Eindhoven, The Netherlands.
617. Bongers, J.P.W., Rutten, H.S., Fijneman, H.J. Softening behaviour of concrete - numerical research, Proceedings of the Third lnteruniversity Research Conference, Sklarska Poremba, Poland, Scientific papers of the Institute of Building Engineering of the Technical University of Wroclaw, No. 68, 1994, pp. 29-34.
618. Chaika, V .P.
Characteristics of the diagram of non-uniform compression of concrete, Russian Journal of concrete and reinforced concrete, V.8, nr. 2, 1994, pp. 37-42.
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619. De Nicolo, B. I Pani, L. I Pozzo, E.
Strain of concrete at peak compressive stress for a wide range of compressive strengths, Materials and structures, V.27, nr. 168, 1994, pp. 206-210.
620. Geel, H.J.G.M. van Uniaxial strain softening of concrete - influence of specimen size and boundary shear, Report TU Eindhoven, The Netherlands.
621. Geel, H.J.G.M. van, Rutten, H.S., Fijneman, H.J. Softening behaviour of concrete - experimental research, Proceedings of the Third Interuniversity Research Conference, Sklarska Poremba, Poland, Scientific papers of the Institute of Building Engineering of the Technical University of Wroclaw, No. 68, 1994, pp. 47-52.
622. Karihaloo, B.L. Physical causes for size effect in concrete structures, IUT AM Symposium on Size-scale effects in the failure mechanism of materials and structures, Torino, Italy, 1994.
623. Murakami, M. / Ohtani, Y.
Damage mechanism in shear band under triaxial compressive stresses, Computational modelling of concrete structures, Proceedings EURO-C 1994 International Conference, Innsbruck, Austria, pp.135-144.
624. Schneeberger, H.
The stress-strain relationship of concrete, Materials and structures, V. 27, nr. 166, 1994, pp. 91-98.
625. Starodubsky, S. /Blechman, I./ Livneh, M.
Stress-strain relationship for asphalt concrete in compression, Materials and structures, V.27, nr. 172, 1994, pp. 474-482.
68
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