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W4316171113 endingPage "108140" @default.
W4316171113 startingPage "108140" @default.
W4316171113 abstract "By formulating the martensite transformation start temperature (Ms) of NiTi shape memory alloys (SMAs) as a function of Ni concentration, a Ni-concentration dependent phase field model is newly proposed in this work. Then, based on correspondent phase field simulations, the elastocaloric effects (eCEs) of the NiTi SMA samples with different Ni-concentration gradients and various aspect ratios are investigated and discussed. The simulated results show that the martensite transformation start stress of NiTi SMAs in the sample with a Ni-concentration gradient along the tensile direction progressively increases during the tensile loading, leading to a step-by-step martensite transformation; hence the suppression of microscopic instability results in a small stress-strain hysteresis loop in the process of tensile-unloading and a tremendous improvement in the coefficient of performance of material (COPmat) if addressing the eCE of the sample. When the aspect ratio of the sample is relatively small (e.g., 1:1), the microscopic instability can be suppressed due to the strong boundary constraint, indicating that reducing the aspect ratio is an efficient way to obtain a small stress-strain hysteresis loop and improve the COPmat of NiTi SMA samples. Moreover, for the sample with a Ni-concentration gradient, when its aspect ratio is relatively large, its eCE is mainly determined by the Ni-concentration gradient; while, when the aspect ratio becomes relatively small, the eCE of the sample is strongly dependent on both the Ni-concentration gradient and the aspect ratio. It implies that the NiTi SMA sample with both a small Ni-concentration gradient and a small aspect ratio and that with both a large Ni-concentration gradient and a large aspect ratio demonstrate the optimal eCE. In other words, a pioneering approach, i.e., concentration-gradient engineering, can be put forward to enhance the eCE of NiTi SMAs based on the detailed phase field simulations. The new findings in this work provide available guidance for improving the eCE of NiTi SMAs and open a novel way for developing advanced SMA-based elastocaloric materials." @default.
W4316171113 created "2023-01-15" @default.
W4316171113 creator A5037352378 @default.
W4316171113 creator A5051689567 @default.
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W4316171113 creator A5076272314 @default.
W4316171113 creator A5080733637 @default.
W4316171113 creator A5083228477 @default.
W4316171113 date "2023-05-01" @default.
W4316171113 modified "2023-10-17" @default.
W4316171113 title "Enhancing elastocaloric effect of NiTi alloy by concentration-gradient engineering" @default.
W4316171113 cites W1499644990 @default.
W4316171113 cites W1984259417 @default.
W4316171113 cites W1988993225 @default.
W4316171113 cites W1991090172 @default.
W4316171113 cites W2008412123 @default.
W4316171113 cites W2012027483 @default.
W4316171113 cites W2015894407 @default.
W4316171113 cites W2025248774 @default.
W4316171113 cites W2032093899 @default.
W4316171113 cites W2032472063 @default.
W4316171113 cites W2038120838 @default.
W4316171113 cites W2038568757 @default.
W4316171113 cites W2044997837 @default.
W4316171113 cites W2047679275 @default.
W4316171113 cites W2050231623 @default.
W4316171113 cites W2054535197 @default.
W4316171113 cites W2056698329 @default.
W4316171113 cites W2059444968 @default.
W4316171113 cites W2062946397 @default.
W4316171113 cites W2067174464 @default.
W4316171113 cites W2073394147 @default.
W4316171113 cites W2073433061 @default.
W4316171113 cites W2086991665 @default.
W4316171113 cites W2132043981 @default.
W4316171113 cites W2133501935 @default.
W4316171113 cites W2147818578 @default.
W4316171113 cites W2155750614 @default.
W4316171113 cites W2161070979 @default.
W4316171113 cites W2164771043 @default.
W4316171113 cites W2200044701 @default.
W4316171113 cites W2292354055 @default.
W4316171113 cites W2301146174 @default.
W4316171113 cites W2437438896 @default.
W4316171113 cites W2505383449 @default.
W4316171113 cites W2523398786 @default.
W4316171113 cites W2564376293 @default.
W4316171113 cites W2569291779 @default.
W4316171113 cites W2597262596 @default.
W4316171113 cites W2608851724 @default.
W4316171113 cites W2623953531 @default.
W4316171113 cites W2745773905 @default.
W4316171113 cites W2771530340 @default.
W4316171113 cites W2782653029 @default.
W4316171113 cites W2789815170 @default.
W4316171113 cites W2790977999 @default.
W4316171113 cites W2885924080 @default.
W4316171113 cites W2890962813 @default.
W4316171113 cites W2900554295 @default.
W4316171113 cites W2901380828 @default.
W4316171113 cites W2910208386 @default.
W4316171113 cites W2939064288 @default.
W4316171113 cites W2943312832 @default.
W4316171113 cites W2946419010 @default.
W4316171113 cites W2955302066 @default.
W4316171113 cites W2955735338 @default.
W4316171113 cites W2962834878 @default.
W4316171113 cites W2970426400 @default.
W4316171113 cites W2982525912 @default.
W4316171113 cites W2986515160 @default.
W4316171113 cites W2991566591 @default.
W4316171113 cites W2996982874 @default.
W4316171113 cites W3022109049 @default.
W4316171113 cites W3024170386 @default.
W4316171113 cites W3046997697 @default.
W4316171113 cites W3080745107 @default.
W4316171113 cites W3093583324 @default.
W4316171113 cites W3131615966 @default.
W4316171113 cites W3157415709 @default.
W4316171113 cites W3159968922 @default.
W4316171113 cites W3168712827 @default.
W4316171113 cites W3184768175 @default.
W4316171113 cites W3193868277 @default.
W4316171113 cites W3216792122 @default.
W4316171113 cites W4200541220 @default.
W4316171113 cites W4211188063 @default.
W4316171113 cites W4212968438 @default.
W4316171113 cites W4221003510 @default.
W4316171113 cites W4221084286 @default.
W4316171113 cites W4224235863 @default.
W4316171113 cites W4280629684 @default.
W4316171113 cites W787464134 @default.
W4316171113 doi "https://doi.org/10.1016/j.ijmecsci.2023.108140" @default.
W4316171113 hasPublicationYear "2023" @default.
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