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Austempering, A Technology for SubstitutionADI DAYS 2016 6th 7th
October Minerbe
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STRAIN RATE AND TEMPERATURE EFFECTS ON THE FLOW STRESS OF ADIA.
Ruggieroa, G. Iannittib, E. Veneric, F. Vettorec , N. Bonoraaa
University of Cassino and SL, DICeM, Cassino, Italyb TECHDYN
Engineering, I-00199 Rome, ItalycZanardi Fonderie S.p.A, I-37046
Minerbe (VR), Italy
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BACKGROUNDAustempering, A Technology for SubstitutionADI DAYS
2016 6th 7th October Minerbe
2Cast irons are widely used in industrial practice mainly for
the production of components through the process of castingADI
matrix microstructure: ausferriteExcellent property combinations of
strength, ductility, and toughnessValid substitute for steel for
structural applications
References[1] Bhme* and Reissig, Adv. Eng. Mat. 2015, 17, No.
8[2] Keough and Hayrynen, SAE, 2000, paper no 248871
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BACKGROUNDAustempering, A Technology for SubstitutionADI DAYS
2016 6th 7th October Minerbe
3Designers show lack of confidenceDread of a presumed low
ductility under impulsive loadingCharpy impact test results
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AIM OF THE WORKAustempering, A Technology for SubstitutionADI
DAYS 2016 6th 7th October Minerbe
4To investigate the constitutive response of the ADI 1050-6
under different conditions of strain rate and temperatureTo analyze
the strain rate effect on the ductilityTo develop a constitutive
model for the design of components operating under both static and
dynamic conditions
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MATERIALSAustempering, A Technology for SubstitutionADI DAYS
2016 6th 7th October Minerbe
5DESIGNATIONUTS (MPa)YIELD STRESS (MPa)ELONGATION
%HARDNESS(BR)ADI 105010507006320-380ADI
120012008503340-420HSiADI145010408.940042CrMo4120080011-
[3]
References[3] J. R. Keough, K. L. Hayrynen and G. L. Pioszak,
AFS Proc. 2010, Schaumburg, IL USA
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EXPERIMENTAL CHARACTERIZATIONAustempering, A Technology for
SubstitutionADI DAYS 2016 6th 7th October Minerbe
6TESTSTRAIN RATETEMPERATUREQUASI-STATIC TENSILE0.001/s-60C, 25C
e +70C
Quasi-static characterizationInstron 5586 (electromechanic)Local
deformation measurements (DIC)Low temperature (liquid CO2)Induction
heating
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EXPERIMENTAL CHARACTERIZATIONAustempering, A Technology for
SubstitutionADI DAYS 2016 6th 7th October Minerbe
7Characterization at high strain rateDirect Tension Split
Hopkinson Pressure BarLow temperature (liquid CO2)High frame rate
cameraTESTSTRAIN RATETEMPERATUREDYNAMIC TENSILE600/s-60C e
25CDYNAMIC TENSILE1200/s-60C e 25C
8000 mm3000 mm3000 mm1000 mm
AAA-A1200 mm
specimen
clamp
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EXPERIMENTAL RESULTS: local strainsAustempering, A Technology
for SubstitutionADI DAYS 2016 6th 7th October Minerbe
8Local deformation map
RemarksUniform strain over the gage length up to failure. No
necking
StressStrain
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EXPERIMENTAL RESULTS: temperature effectAustempering, A
Technology for SubstitutionADI DAYS 2016 6th 7th October
Minerbe
9RemarksAt low temperatures, the work hardening rate increases,
whereas the apparent yield strength seems to decrease slightly Same
behavior at different strain rates
Quasistatic testDynamic testT=213 KT=298 K
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Austempering, A Technology for SubstitutionADI DAYS 2016 6th 7th
October Minerbe
10RemarksStrain rate affects the material yield stressUnder
dynamic loading, necking occurs just before failure
T=25C
StressStressEXPERIMENTAL RESULTS: strain rate effect on the flow
stressT=-60C
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EXPERIMENTAL RESULTS: strain rate effects on yield stress and
ductilityAustempering, A Technology for SubstitutionADI DAYS 2016
6th 7th October Minerbe
11RemarksAbsence of the knee in the initial yield stress vs.
strain rate diagramAs for the ADI 1200, the failure strain
increases with the strain rate
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EXPERIMENTAL RESULTS: failure modeAustempering, A Technology for
SubstitutionADI DAYS 2016 6th 7th October Minerbe
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HpkGS5 RT 1200s-1
HpkGS7 RT 1200s-1
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STRENGTH MODELAustempering, A Technology for SubstitutionADI
DAYS 2016 6th 7th October Minerbe
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AS (MPa)ma B0 (MPa)mbnC1207160108051600.60.0141.0
Modified Johnson-Cook
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MODEL VERIFICATIONAustempering, A Technology for SubstitutionADI
DAYS 2016 6th 7th October Minerbe
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CONCLUSIONSAustempering, A Technology for SubstitutionADI DAYS
2016 6th 7th October Minerbe
15Experimental results show an increase of up to 10% in
ductility with increasing the strain ratePossible differences in
the failure mechanism at different strain rates were observed
Strain rate affects the initial yield stress (typical of a BCC
structure)Absence of the knee in the initial yield stress vs strain
rate diagram (typical of a FCC structure)Temperature affects the
work hardening rate mainly (typical of a FCC structure)
The proposed constitutive model describes with good accuracy the
phenomenological behavior that the ADI 1050 shows in the ranges of
strain rate and temperature analyzed
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ONGOING WORKAustempering, A Technology for SubstitutionADI DAYS
2016 6th 7th October Minerbe
16To analyze further the peculiar effects of strain rate and
temperature on the flow stress
Micro mechanical modeling for evaluating the effects of residual
stress To investigate the composite structure of the ausferriteTo
analyze the stress triaxiality effect on the ductility at different
strain rates and temperaturesTo develop a damage model
Equivalent failure strain
Triaxiality factor
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