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Adiabatic Shear Localization for Steels Based on Johnson��Cook Model and Second�� and Fourth��Order Gradient Plasticity Models |
WANG Xue��bin |
Department of Mechanics and Engineering Sciences, Liaoning Technical University, Fuxin 123000, Liaoning, China |
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Abstract To consider the effects of the interactions and interplay among microstructures, gradient��dependent models of second�� and fourth��order are included in the widely used phenomenological Johnson��Cook model where the effects of strain��hardening, strain rate sensitivity, and thermal��softening are successfully described. The various parameters for 1006 steel, 4340 steel and S��7 tool steel are assigned. The distributions and evolutions of the local plastic shear strain and deformation in adiabatic shear band (ASB) are predicted. The calculated results of the second�� and fourth��order gradient plasticity models are compared. S��7 tool steel possesses the steepest profile of local plastic shear strain in ASB, whereas 1006 steel has the least profile. The peak local plastic shear strain in ASB for S��7 tool steel is slightly higher than that for 4340 steel and is higher than that for 1006 steel. The extent of the nonlinear distribution of the local plastic shear deformation in ASB is more apparent for the S��7 tool steel, whereas it is the least apparent for 1006 steel. In fourth��order gradient plasticity model, the profile of the local plastic shear strain in the middle of ASB has a pronounced plateau whose width decreases with increasing average plastic shear strain, leading to a shrink of the portion of linear distribution of the profile of the local plastic shear deformation. When compared with the second��order gradient plasticity model, the fourth��order gradient plasticity model shows a lower peak local plastic shear strain in ASB and a higher magnitude of plastic shear deformation at the top or base of ASB, which is due to wider ASB. The present numerical results of the second�� and fourth��order gradient plasticity models are consistent with the previous numerical and experimental results at least qualitatively.
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Received: 01 January 1900
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