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Surface integrity evolution of machined NiTi shape memory alloys after turning process
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作者 yan-zhe zhao Kai Guo +4 位作者 Vinothkumar Sivalingam Jian-Feng Li Qi-Dong Sun zhao-Ju Zhu Jie Sun 《Advances in Manufacturing》 SCIE EI CAS CSCD 2021年第3期446-456,共11页
Owing to their shape memory effect and pseudoelasticity,NiTi shape memory alloys(SMAs)are widely used as functional materials.Mechanical processes particularly influence the final formation of the product owing to the... Owing to their shape memory effect and pseudoelasticity,NiTi shape memory alloys(SMAs)are widely used as functional materials.Mechanical processes particularly influence the final formation of the product owing to thermal softening and work-hardening effects.Surface integrity is an intermediate bridge between the machining parameter and performance of the product.In this study,experiments were carried out on turning NiTi SMAs at different cutting speeds,where surface integrity characteristics were analyzed.The results show that a higher cutting speed of 125 m/min is required to turn NiTi SMAs based on the evaluation of surface integrity.The degree of work hardening is higher at 15 m/min.Consequently,as a primary effect,work hardening appears on the plastic deformation of the machined samples,leading to dislocations and defects.As the cutting speed increases,the thermal softening effect exceeds work hardening and creates a smoother surface.A stress-induced martensitic transformation is considered during the turning process,but this transformation is reversed to an austenite from the X-ray diffraction(XRD)results.According to the differential scanning calorimetry(DSC)curves,the phase state and phase transformation are less influenced by machining.Subsequently,the functional properties of NiTi-SMAs are less affected by machining. 展开更多
关键词 NITI Shape memory alloys(SMAs) TURNING Surface characteristics Phase transformation MICROHARDNESS
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