(PDF) Inverse Identification at Very High Strain Rate of

Inverse Identification at Very High Strain Rate of the Johnson-Cook Constitutive Model on the Ti-6Al-4 v Alloy With a Specially Designed Direct-Impact Kolsky Bar Device

Strain - United Kingdom

doi 10.1111/str.12114

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October 22, 2014

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Wiley

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Inverse Identification at Very High Strain Rate of the Johnson-Cook Constitutive Model on the Ti-6Al-4 v Alloy With a Specially Designed Direct-Impact Kolsky Bar Device

Strain - United Kingdom

doi 10.1111/str.12114

Full Text

Abstract

Categories

Date

Authors

Publisher

Related search

Constitutive Modelling of the Flow Behaviour of a Β Titanium Alloy at High Strain Rates and Elevated Temperatures Using the Johnson–Cook and Modified Zerilli–Armstrong Models

A Modified Johnson-Cook Model for Cp-Ti to Incorporate the Effects of Dynamic Strain Aging and Phase Transformation

Very High-Cycle Fatigue and High-Cycle Fatigue of Minor Boron-Modified Ti–6Al–4V Alloy

Mechanical Behavior of a Ti-6Al-4 v Titanium Alloy With Microstructural Evolution Modeling Under Hot and Superplastic Conditions

Dynamic High-Temperature Kolsky Tension Bar Techniques

The Effect of High Vacuum Environment on Tensile Fatigue Properties of Ti-6Al-4v Alloy.

Flow Behavior and Microstructure in Ti–6Al–4V Alloy With an Ultrafine-Grained Α-Single Phase Microstructure During Low-Temperature-High-Strain-Rate Superplasticity

Nanoscale Twinned Ti-44Al-4Nb-1.5Mo-0.007y Alloy Promoted by High Temperature Compression With High Strain Rate

Effect of Processing Parameters on Hot Deformation Behaviour and Microstructural Evolution of PM Ti-5553 Alloy at a Moderate-High Strain Rate