Publication | Closed Access
A 1D rate-dependent viscous constitutive model for superelastic shape-memory alloys: formulation and comparison with experimental data
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Citations
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References
2007
Year
EngineeringSevere Plastic DeformationMechanical EngineeringMechanics ModelingStructural MaterialsHigh-rate LoadingExperimental DataMechanicsNumerical SimulationStressstrain AnalysisMicrostructure-strength RelationshipSma MaterialsSuperelastic Shape-memory AlloysMaterials ScienceLoading–unloading RateSolid MechanicsPlasticityMicrostructureDynamic Constitutive BehaviorMechanical PropertiesAlloy DesignContinuum ModelingConstitutive ModelingMechanics Of MaterialsHigh Strain Rate
Experimental investigations on superelastic shape-memory alloys (SMAs) show a dependence of the stress–strain relationship on the loading–unloading rate. This feature is of particular importance when utilizing SMA materials for seismic applications, since the loading rate may affect the structural response.
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