IS : 1570 ( Part 5 ) - 1985 hdian Standard SCHEDULES FOR WROUGHT STEELS PART 5 STAINLESS AND HEAT-RESISTING STEELS ( Second Revision ) First Reprint FEBRUARY 1990 UDC 669.14.22:669.14.018.-!3:669.15.194.3(083.4) @ CoPyright 1987 BURIEAU OF INDI’AN STANDARDS MANAK BHAVAN, 9 BAHADUR SHAH ZAFAR MARG NEW DELHI 110002 Gr 5 January 1987
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IS : 1570 ( Part 5 ) - 1985
hdian Standard
SCHEDULES FOR WROUGHT STEELS
PART 5 STAINLESS AND HEAT-RESISTING STEELS
( Second Revision )
I First Reprint FEBRUARY 1990
UDC 669.14.22:669.14.018.-!3:669.15.194.3(083.4)
@ CoPyright 1987
BURIEAU OF INDI’AN STANDARDS MANAK BHAVAN, 9 BAHADUR SHAH ZAFAR MARG
NEW DELHI 110002
Gr 5 January 1987
IS : 1570 ( Part 5 ) - 1985
Indian Standard
SCHEDULES FOR WROUGHT STEELS
PART 5 STAINLESS AND HEAT-RESISTING STEiiS
( Second Revision )
Alloy Steels and Special Steels Sectional Committee, SMDC 19
Chairman Representing DRUG. MUKHERJEE Steel Authority of India Ltd, New Delhi
Members ADDITIONAL DIRECTOR ( MET) Ministry of Railways
JOINT DIRECTOR ( CHEM ) ( Alternate ) SHRI BAL KRISHAN AGGARWAL Federation of Engineering Industries of India,
New Delhi SHRI H. S. GUPTA ( Alternate )
SHRI B. C. BASAVARAJ Visvesvaraya Iron and Steel Ltd, Bhadravati SHRI B. HARIDASACHAR ( Alfernate )
SHRI S. K. BASU SHRI C J. DAVE ( AIternate )
M. N. Dastur and Co Pvt Ltd, Calcutta
SHRI J. N. BHATTACHARYYA National Test House, Calcutta SHRI S. C. BHAWAL ( AIternate )
SHRI R. BHATTACHA~YA Guest Keen Williams Ltd, Howrnh SHRI P. K. CHAKRAVARTY The Tata Iron and Steel Co Ltd, Jamshedpur
DR T. MUKHERJEE ( Alternate ) SHRI D. K. DAS Heavy Engineering Corporation, Ranrhi
SHRI B. P. SINGH ( Alternate ) SHRI M. K. DANA Steel Authority of India Ltd ( Alloy Steels
Modi Steels, Modinagar Indian Register of Shipping, Bombay
SHRI VIPON CHOPRA ( Alternate ) DR D. P. LAHIRI
SHRI I. N. BHATIA ( Afternate ) Ministri of Defence ( R & fi )
( Continued on page 2)
0 Copyright 1987 BUREAU OF INDIAN STANDARDS
This publication is protected under the Indian Copyrighr Act (XIVof 1957) and reproduction in whole or in part by any meaos except with written permission of the publisher shall be deemed to be an infringement of copyright under the said Act.
I .
,
IS : 1570 ( Part 5 ) - 1985
Mcdwrs
DK S. K. MANDAL
Rcprcsertting
Tata Enpinccring and Locomotive Co Ltd, Jamsbcdpur
DI< P. G. RENAVIRAR ( Altmmtc ) SllRl D. B. MOIIAIUL Steel Furnace Association of India, Calcutta
DR K. SUIIICAMANYAM ( Alternate ) DK M. NAOESIIWAR KAO Mishrn Dh:itu Nknrn Ltd. Hvderxbad SHKI I. K. N.\YAK Firth ( India ) Steel Co Ltd, i‘hunc
SIII~I K. A. SIIENOY ( AIrunate ) SHKI K. &RTI~~ASAKATIIY Ashok Lcyl;lsd Limited, Madras DK R. V. PATHY Mrthindra Ugine Steel Co Ltd, Bombay; and
Allov Steel Producers’ Association of India, Bombay
SIlRI R. NARAYANA (Alternate) Mahindra Ugine Steel Co Ltd. Bombay SHRl H S. PAWI. Modern Steel Ltd, Gobindgarh SImI M. K. PI~AMANIK Ministrv of Steel and Mines I Iron and Steel
Co&i1 ), Calcutta ’ SHRI S. S. SAHA ( Alternate )
SHRI RAGHUUIR SINGH National Metallurgical Laboratory ( CSIR ), Jamshedpur
DR V. RAMASWAMY Steel Authority of India Ltd ( Research and pa;clcipmcnt Centre for Iron and Steel ),
SHRI S. R. MEDIRATTA (Mternatc ) SIIRI H. S. RAMACHANDRAN HMT Limited, &n-&ore
Stlkl P. P. C~I~PRA ( Atfernute I ) SIIIU P. RA~~A PKASAD ( Alternate 11 ) SIIRI A.~SlIANTHARAM ( Altcmare II1 ) SHRI V. N. VENKATESAN ( Alfermtc 1V )
SHRI R. N. SAHA Directorate General of Supplies and Disposals
SHRI D. K. PAUL ( Alternate ) ( Inspection Wing ), New Delhi
SHRI M. K. ,?,EN Ministry of Defence ( DGI ) SHRI V. 1. RAMASWAMY ( Alternate )
SHRI D. S. P. SRIVASTAVA SHKI V. V. V~RAUHADRAYYA
Ministry of Defence ( DGOF ) Directorate General of Technical Development,
New Delhi SHR~ S. K. JAIN ( Aftrmate )
SI?RI K. RAGHAVENDRAN, Director ( Strut & Met )
Director General, ISI ( Ex-officio Member )
Sccrctary SIIRI A. B. TEWARI
Deputy Director ( Metals .), IS1
( Continued on pge 16 )
is:1$7O(Part5)-l!m
Indian Standard
SCHEDULES FOR WROUGHT STEELS
PART 5 STAINLESS AND HEAT-RESISTING STEELS
( Second Revision )
0. FOREWORD
0.1 This Indian Standard ( Part 5 ) ( Second Revision ) was adopted by the Indian Standards Institution on 30 October 1985, after the draft finalized by the Alloy Steels~and Special Steels Sectional Committee had been approved by the Structural and Metals Division Council.
0.2 This standard was first published in 1961 and subsequently revised in 1972. On the basis of experience gained in the production and use of these steels, it has been decided to issue the present revision of this standard.
0.3 The following major modifications have been incorporated in this revision:
a) Chemical compositions of some of the grades in Table 1 have been modified in the light of the indigenous production of these steels.
b) Tables 6, 1 I, 12 and 14 of the first revision have been deleted, as sufficient data is not available and such products are not being produced on a mass scale in-the country.
c) Other tables have been rationalized and modified on the basis of indigenous production of the steels.
0.4 This schedule is not intended to be used as a standard and for detailed requirements, reference should be made to the following standards:
a) IS : 5522-1978 S_tainless steel sheets and coils (first revisiorz )
b) IS : 6527-1972 Stainless steel wire rod c) IS : 6528-1972 Stainless steel wire d) IS : 6529-1972 Stainless steel blooms, billets and slabs for
forgings e) IS : 6603-1972 Stainless steel bars and flats
3
IS : 1570 ( Part 5 ) - 1985
f) IS : 6911-19’72 Stainless steel plate, sheet and strip g) IS : 7494-1981 Steel for valves for internal combustion engines
(first revision ) h) IS : 9294-1979 Cold rolling stainless steel strips for razor
blades
j) IS : 9516-1980 Heat resisting steels
0.5 Mechanical properties given in Tables 2 to 6 are applicable to heat treated steels according 10 the stipulations made in Table 7. The specified mechanical properties are applicable to test samples taken from a standard location which should be included in the specification.
0.6 This standard ( Part 5 ) deals with stainless and heat-resisting steels, other parts of IS : 15;O have already been published are:
IS : 1570 ( Part 1 )-1978 Schedules for wrought steels: Part 1 Steels specified by tensile and/or yield properties (first revision ).
IS : 1570 ( Part 2 )-1979 Schedules for wrought steels: Part 2 Carbon steels ( unalloyed steels ) (first revision ).
IS : 1570 ( Part 3 )-1979 Schedules for wrought steels: Part 3 Carbon and carbon manganese free cutting steels (first revisions).
._
0.7 Schedules IV and VI of IS : 1570 are also under revision and these lvill also be printed as separate standards in due course. 0.8 Information on the assessment of the ruling sections of bars, forgings and parts is given in Appendix A.
0.9 For the purpose of deciding whether a particular requirement of this standard is complied with, the final value, observed or calculated, expressing the result of a test or analysis, shall be rounded off in accord- ance with IS : 2-1960*. The number of significant places retained in the rounded off value should be the same as that of the specified value in this standard.
1. SCOPE
1.1 This star.dnrd ( Part 5 > is applicab!e to steels with a high alloy content primarily intcrded for corrosion and hcnt-rcsistingpurposes and supplied to spcclficd chemical composilion a; given in Table~l. The mechanical propcrtics of these steels arc given in Tables 2 to 6.
*Rules for rounding off numerical values (rcviscd).
4
IS : 1570 ( Part 5) - 1985
TABLE I SPECIFIED CHEMICAL COMPOSITIONS OF HIGH ALLOY STEELS, STAINLESS STEELS AND HEAT-RESISTING STEELS
SL STEEL (Clause 1.1 ) No. DESIGNATION CHEMICAL COMPOSITION
*For free cutting varieties at serial huthbers 1 to 4, Wphur and Selenium content shall be as agieed to between ttie purchaser and the manufacturer. tFor electrode steel Nb - 10 C to 1.0 in place of Ti.
5
REMARKS
(13)
N 0.25 Max
N 0.25 Max
W 2.0/3*0
0.60
Vauadium
Max
As in the Original Standard, this Page is Intentionally Left Blank
Y02Ct19NilO 485 XO&r19Ni9 515
XO7Cr18Ni9 515
XO4Crl8NilOTi 515
XO4Crll)NilONb 515
~X04Cd7Ni12MoZ 515
XOZCr17Ni12Mo2 485
XO4017Nil2Mo2Ti2 515
XO4Cr19Ni13Mo3 515
X15Cr24Ni13 490
X2OCr25Ni20 515
XO4Cr25Ni20 515
XO7Cr17Mn12Ni4 550
XO4Cr12
X12Cr12
X07Cr17
X2Wr13
X30Crl3
Xl5Cr16Ni2
Xl08Cr17Mo
X15Cr25N
415
450
450
-
515
!mw&&w w$;y&e&-. Mlax %
%I? ‘Min Brinell Rock- Percent well B
MPa
chromium - Nickel Steels
170 40
205 40
205 40
205 40
205 40
205 40
170 40
205 40
205 35
210 40
210 40
205 40
250 45
Chromium - Steels
205 220
205 20.0
205 22.0
-
-
- -
275 20
183 88 183 88 183 88
183 88
183 88
ui 95
217 95
217 ~ 95
217 95
223 95
223 95
217 95
217 88
183 88
217 95
183 ~88
241 -
241 -
285 -
269 -
217 -
7
IS : 1570 ( Part 5 ) - 1985
TABLE 3 MECHANICAL TEST REQUIREMENTS IN ANNEALED QUENCHED OR SOLUTION TREATED COND ITION FOR
X12012 410 590 to 780 16 X20013 490 -690 to 880 14 X30Cr13 590 780 to 980 11 X15Cr16Ni2 640 830 to 1 030 10
NOTE - Elongation values are given on the Gauge Length as per IS : 3803-1976 that is, Lo = 5.65d/sz Percent elongation values given are applicable-to all sizes of sheets, plates, strips and bars of 5 to 100 mm flats of 3 to 30 mm.
TABLE 5 HARDNESS VALUES FOR CUTLERY STEELS IN THE FORM OF BARS, I-LATS, SHEETS, PLATES AND STRIPS
( Clauses 0.5 and 1.1 )
STEEL DESIGNATION QUENCHED AND TEMPERED HARDNESS, Min
r-_-___~ HV HRC
X30Cr13 500 49
X108Cr17Mo 660 58
NOTE - Annealed hardness of these grades has already been included in Tables 2 and 3.
NOTE - For austenitic stainless steels, the quenching media shall be selected taking into consideration the size of the material and carbon content of the grade.
*A = Annealing. Q = Quenching, T = Tempering S = Softening,f= Furnace, u = Air, w = Water, o= Oil, ST = Solution Treatment
w L P = Patenting
Stabilization Temperature 550°C
tTemperature for ageing treatment
IS : 1570 ( Part 5 ) - 1985
APPENDIX A
( Clause 0.8 )
INFORMATION ON RULING SECTION
A-l. The mechanical ~properties obtained from a steel of a given composition are fundamentally influenced by the speed of cooling from a temperature above the upper critical point, that is, from hardening or normalizing temperature. Also for a given method of cooling, for example, oil quenching the rate of cooling is strongly affected by the size and shape of the part being treated. Therefore, for a steel of a given composition, the mechanical properties attained are affected not only by the method of cooling emp!oyed, but also by the size andshape of the part at the time of heat treatment. Thus, although it may be possible to obtain effective hardening by oil quenching a small section of a steel of a particular composition, it may be possible to satisfactory hardening throughout the mass when parts of larger cross-sectional dimensions are oil quenched. In such circumstances~a steel of a different composition has to be selected. This inter-relation between the mechanical properties obtained and the size and shape of the part at the time of heat treatment is sometime referred to as ‘mass effect’.
A-2. It is, therefore, necessary when selecting the steel which should be used to attain certain specified mechanical properties after heat treat- ment, to know the size and shape of the part to be heat-treated. The cross-sectional dimensions of that portion of the forging or part, where it is most important to obtain the desired mechanical properties, are regarded as the ‘ruling section’ of 3he part. In the case of round bar, the diameter is the ruling section, but as many shapes other than round bars require heat treatment, it is desirable to be able’to relate the rates of cooling of other shapes to their equivalent sections of round bar. The diameters of round bars, the centres of which would cool through a. given temperature range at the same rate as the centres of rectangular and square bars of selected sizes have been assessed and the resulting ‘equivalent ruling sections’ are given in Tables 8 and 9. Table 8 gives the equivalent ruling section in terms of diameter of round bar for rectangular and square sections when oil quenched, while Table 9 gives the same information for air cooling. As examples of how the tables may be applied, the centre of.square section of 100 mm sides will, when oil quenched, cool at the same rate as a round section of 108 mm diameter and the equivalent ruling section of a slab 140 mm wide and 60 mm thick will, for oil quenching be 88 mm. In the case of other regular sections, close approximations may usually be made since the order of decreasing rate of cooling is round, octagonal, hexagonal and
12
IS : 1570 ( Part 5 ) - 1985
square, while oval sections with major axis a and minor axis b will cool more slowly than a round~bar of diameter b but faster than a rectangle axb.
- T ir-
b
B
18 1C
FIG. 1 RULING SECTION
A-3. In the case of parts of non-uniform section, not only it is neces- sary to consider which is the most important portion of the forging in which the specified properties are essential, but also to consider the relation of the length of any enlarged portion to its diameter. For example, in the case of a forging with a barrel, the length L of which is greater than the diameter D ( see Fig. IA ), this diameter will be the ruling dimension. In the case of collar, the diameter D1 of which is greater than the thickness T ( see Fig. 1B ), the collar may be considered as a disc of which the thickness is the governing dimension although the ruling section of the part as a whole for practical purposes will be the diameter Do. For forgings where the dimension 5 and thickness Tof the portion of largest cross-section are similar ( see Fig. lC), the dimension A, between the centre and fhe nearest points of the external surface will in general determine the ruling section.
13
T~mc~~s.w
\ WIDTH
4
10 20 30 40 50 60 80 100 120 140
DIAMETER OF EQUIVALENT ROUNDS
(1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11)
10
20
30
40
50
60
80
100
120
140
160
180
200
225
250
300
350 and over
X= Gre; _
( Clause A-2 ) All dimensions in millimetres.
10 -
14 21
16 26
17 29
17 31
17 32
17 32
17 33
17 33
17 33
17 33
17 33
17 33
17 33
17 33
17 33
18 33
-
32
37
40
43
46
47
48
48
48
48
48
48
48
48
49
!r than 160 mm.
-
43
48
51
57
60
62
63
63
63
63
63
63
63
63
- -- -
-- -
-- -
-- -
54 -- -
59 65 - -
66 74 87 -
71 80 96 108
74 85 102 117
76 88 108 125
77 90 112 131
77 91 115 136
78 92 117 140
78 92 119 143
78 92 120 145
78 92 121 148
78 92 121 150
-
-
-
-
-
-
-
-
130
140
148
154
X
X
X
x
X
-
-
-
-
-
152
X
x .
X
X
X
X
X
14
IS : 1570 ( Part 5 ) - 1985
TABLE 9 CONVERSION OF RECTANGULAR AND SQUARE SECTlONS INTO EQUIVALENT RULING SECTIONS, AIR COOLING