Xuejun Jin scite author profile

A review of experiments and models for the strain rate effect of NiTi Shape Memory Alloys (SMAs) is presented in this paper. Experimental observations on the rate-dependent properties, such as stress responses, temperature evolutions, and phase nucleation and propagation, under uniaxial loads are classified and summarized based on the strain rate values. The strain rates are divided into five ranges and in each range the deformation mechanism is unique. For comparison, results under other loading modes are also reviewed; however, these are shorter in length due to a limited number of experiments. A brief discussion on the influences of the microstructure on the strain-rate responses is followed. Modeling the rate-dependent behaviors of NiTi SMAs focuses on incorporating the physical origins in the constitutive relationship. Thermal source models are the key rate-dependent constitutive models under quasi-static loading to account for the self-heating mechanism. Thermal kinetic models, evolving from thermal source models, address the kinetic relationship in dynamic deformation.

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Enhanced superelasticity and two-way shape memory properties of bamboo-grained Au7Cu5Al4 microwires

Pang

Jin

2022

Intermetallics

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Xuejun Jin

Combined effects of grain size and training on fatigue resistance of nanocrystalline NiTi shape memory alloy wires

Strain Rate Effect on the Thermomechanical Behavior of NiTi Shape Memory Alloys: A Literature Review

Enhanced superelasticity and two-way shape memory properties of bamboo-grained Au7Cu5Al4 microwires

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