Three Dimensional Thermoviscoplastic Deformation Behavior of Blocks Under Uniaxial Tension

A rigid-plastic finite element method which employ stabilization matrices and enables effective and accurate computation was applied to investigation of the effects of strain rate and temperature sensitivities, deformation rate, thermal conductivity, and size on three-dimensional deformation behavio...

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Veröffentlicht in:	TRANSACTIONS OF THE JAPAN SOCIETY OF MECHANICAL ENGINEERS Series A 1989/08/25, Vol.55(516), pp.1872-1876
Hauptverfasser:	CHU, MAN-SEOK, TOMITA, YOSHIHIRO, SHINDO, AKIO
Format:	Artikel
Sprache:	eng ; jpn
Schlagworte:	3-Dimensional Deformation Behaviors Heat Transfer Parallel Computation Plasticity Rigid-Plastic Finite Element Method Strain Rate-Sensitive Material Temperature-Sensitive Material
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container_title	TRANSACTIONS OF THE JAPAN SOCIETY OF MECHANICAL ENGINEERS Series A
container_volume	55
creator	CHU, MAN-SEOK TOMITA, YOSHIHIRO SHINDO, AKIO
description	A rigid-plastic finite element method which employ stabilization matrices and enables effective and accurate computation was applied to investigation of the effects of strain rate and temperature sensitivities, deformation rate, thermal conductivity, and size on three-dimensional deformation behaviors in blocks subjected to tension. The results clarified that the increase of the deformation rate caused thermal softening and that the displacement at the maximum load point decreased. Futhermore, the load decreased significantly. The size effect should always be taken into account for accurate prediction of the problem, including the heat generation and transfer. Under a relatively low deformation rate, the adiabatic assumption may not provide suitable information on the thermovisco-plastic deformation behaviors. It is also shown that the present results indicate more relaxed deformation than that due to the plane strain approximation.
doi_str_mv	10.1299/kikaia.55.1872
format	Article
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The results clarified that the increase of the deformation rate caused thermal softening and that the displacement at the maximum load point decreased. Futhermore, the load decreased significantly. The size effect should always be taken into account for accurate prediction of the problem, including the heat generation and transfer. Under a relatively low deformation rate, the adiabatic assumption may not provide suitable information on the thermovisco-plastic deformation behaviors. 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language	eng ; jpn
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source	J-STAGE Free; EZB-FREE-00999 freely available EZB journals
subjects	3-Dimensional Deformation Behaviors Heat Transfer Parallel Computation Plasticity Rigid-Plastic Finite Element Method Strain Rate-Sensitive Material Temperature-Sensitive Material
title	Three Dimensional Thermoviscoplastic Deformation Behavior of Blocks Under Uniaxial Tension
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