Physically-Based Simulations of the Cyclic Behavior of FCC Polycrystals

Maxime Sauzay; Jia Liu; Fatima Rachdi; Loic Signor; Thomas Ghidossi; Patrick Villechaise

doi:10.4028/www.scientific.net/AMR.891-892.833

Paper Titles

Constitutive Modeling for Cyclic Behavior of AZ31B Magnesium Alloy and its Application
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The Effect of the Microstructure and Defects on Crack Initiation in 316L Stainless Steel under Multiaxial High Cycle Fatigue
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The Energy Based Approach to Fatigue
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Assessing Structural Safety of Bolted Joints Subject to Cyclic Loading Using Advanced Nonlinear FEA
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Physically-Based Simulations of the Cyclic Behavior of FCC Polycrystals
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Influence of HVOF Coating on the Fatigue Strength of 15-5 PH Stainless Steel
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Effect of Thermal Barrier Coating on Low Cycle Fatigue Behavior of Cast Inconel 713LC at 900 °C
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Fatigue Crack Development in Epoxy Coatings on Steel Substrate: The Role of Coating and Substrate Properties in Determination of the Onset of Fatigue Cracks
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Dependence of Static Fatigue Tests on Experimental Configuration for a Crystalline Rock
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 891-892Physically-Based Simulations of the Cyclic...

Physically-Based Simulations of the Cyclic Behavior of FCC Polycrystals

Abstract:

Two homogeneization approaches are used in order predict the cyclic elastic-plastic behaviour of 316L(N) polycrystals, either

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Advanced Materials Research (Volumes 891-892)

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833-839

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https://doi.org/10.4028/www.scientific.net/AMR.891-892.833

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Online since:

March 2014

Authors:

Maxime Sauzay*, Jia Liu, Fatima Rachdi, Loic Signor, Thomas Ghidossi, Patrick Villechaise

Keywords:

Crystalline Constitutive Laws, Cyclic Plasticity, Dislocation Microstructures, Finite Element, Full-Field Homogeneisation, Mean Grain Stress, Mean-Field Homogeneisation, Strain Distributions

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