Document Zbl 0468.73011

Inoue, T.; Nagaki, S.; Kishino, T.; Monkawa, M.

Description of transformation kinetics, heat conduction and elastic- plastic stress in the course of quenching and tempering of some steels. (English) Zbl 0468.73011

Ing.-Arch. 50, 315-327 (1981).

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MSC:

74F05	Thermal effects in solid mechanics
74A15	Thermodynamics in solid mechanics
80A20	Heat and mass transfer, heat flow (MSC2010)
74C15	Large-strain, rate-independent theories of plasticity (including nonlinear plasticity)
74C20	Large-strain, rate-dependent theories of plasticity
35K05	Heat equation
74A20	Theory of constitutive functions in solid mechanics
74S05	Finite element methods applied to problems in solid mechanics

Keywords:

steels; phase transitions; Gibbs free enthalpy; internal state variables; transformation kinetics; heat conduction; mechanical energy dissipation; quenching; tempering

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References:

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[2]	Mura, T.: Residual Stresses due to Thermal Treatments. Res. Rep. Faculty of Engineering, Meiji University, 10 (1957) 14-27
[3]	Landau, H. G.; Weiner, J. H.: Stresses in an Elastic-plastic Cylinder due to a Dilatational Phase Transformation. J. Appl. Mech., ASME, Ser. E 31 (1964) 148-150
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[9]	Hildenwall, B.: Prediction of the Residual Stresses created during Quenching. Linköping Studies in Science and Technology, Diss. 39 (1979)
[10]	Lomakin, V. A.: Transformation of Austenite under Nonisothermal Cooling. Izv. Ak. Nauk CCCP, Pd. T.N., Mech. and Machine 2 (1958) 20-25
[11]	Lomakin, V. A.: Problems of Evaluation of Stresses and Deformations due to Thermal Treatment. Izv. Ak. Nauk CCCR. Od. T.N., Mech. and Machine 1 (1959) 103-110
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[15]	Prager, W.: The Theory of Plasticity ? A Survey of Recent Achievements. Proc. Inst. Mech. Eng. 169 (1955) 41-57 · doi:10.1243/PIME_PROC_1955_169_015_02
[16]	Green, A. E.; Naghdi, P. M.: A General Theory of an Elastic-plastic Continuum, Arch. Rat. Mech. Analysis 18 (1965) 251-281 · Zbl 0133.17701 · doi:10.1007/BF00251666
[17]	Johnson, A. W.; Mehl, F.: Reaction Kinetics in Processes of Nucleation and Growth. Trans. AIME 135 (1939) 416-458
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