Phenomenological elastoplasticity view on strain recovery loops characterizing shape memory material
Author:
Publisher
Wiley
Subject
Applied Mathematics,Computational Mechanics
Reference48 articles.
1. Thermal effects in the superelasticity of crystalline shape-memory materials
2. A robust integration-algorithm for a finite-strain shape-memory-alloy superelastic model
3. Shape-memory alloys: modelling and numerical simulations of the finite-strain superelastic behavior
4. Thermo-mechanical constitutive equations for the description of shape memory effects in alloys
5. Relaxed constitutive relations for phase transforming materials
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2. New finite strain elastoplastic equations for accurately and explicitly simulating pseudoelastic-to-plastic transition effects of shape memory alloys;Applied Mathematics and Mechanics;2020-09-04
3. A 1D strain-amplitude- and strain-rate-dependent model of super-elastic shape memory alloys for structural vibration control;Structures;2020-06
4. An explicit and accurate approach toward simulating plastic-to-pseudoelastic transitions of SMAs under multiple loading and unloading cycles;International Journal of Solids and Structures;2020-03
5. Finite Strain Elastoplastic J2-Flow Model for Automatically, Accurately Simulating Pseudo-Elastic Effects of SMAs;Key Engineering Materials;2020-02
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