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Two-way shape memory effect and alternating current driving characteristics of a TiNi alloy spring
引用本文:WANGZhiguo ZUXiaotao. Two-way shape memory effect and alternating current driving characteristics of a TiNi alloy spring[J]. 稀有金属(英文版), 2004, 23(3): 250-254
作者姓名:WANGZhiguo ZUXiaotao
作者单位:DepartmentofAppliedPhysics,UniversityofElectronicScienceandTechnologyofChina,Chengdu610054,China
基金项目:This project is financially supported by the National Natural Science Foundation of China (No. 10175042)
摘    要:Two-way shape memory effect (TWSME) was induced into the TiNi shape memory alloys (SMAs) spring by thermomechanical training after annealing treatment, which has promising application in micro-actuating fields. The TWSME spring can contract upon heating and extend upon cooling. The results show that there is an increase of the recovery ratio up to a maximum TWSME of 45%. During the training procedure, transformation temperatures and hysteresis were measured by different scanning calorimetry (DSC). The results show that As (reverse transformation start temperature) and Af (reverse transformation fmish temperature) shift to lower temperature after training. The intervals of ArAs and Ms-Mf (Ms and Mf are the martensite start and finish temperatures, respectively) increase and the heat of transformation decreases after training. The electrothermal driving characteristics of the TWSME springs were also investigated with alternating current density of 3.2-14.7A/mm^2. It is found that the time response and the maximum contraction ratio greatly depend on the magnitude of the electrical current density.

关 键 词:电热驱动 热机训练 差示扫描量热法 交互电流驱动特性 形状记忆钛镍合金弹簧 双向形状记忆弹簧 微起动

Two-way shape memory effect and alternating current driving characteristics of a TiNi alloy spring
WANG Zhiguo,ZU Xiaotao. Two-way shape memory effect and alternating current driving characteristics of a TiNi alloy spring[J]. Rare Metals, 2004, 23(3): 250-254
Authors:WANG Zhiguo  ZU Xiaotao
Affiliation:Department of Applied Physics, University of Electronic Science and Technology of China, Chengdu 610054, China
Abstract:Two-way shape memory effect (TWSME) was induced into the TiNi shape memory alloys (SMAs) spring by thermomechanical training after annealing treatment, which has promising application in micro-actuating fields. The TWSME spring can contract upon heating and extend upon cooling. The results show that there is an increase of the recovery ratio up to a maximum TWSME of 45%. During the training procedure, transformation temperatures and hysteresis were measured by different scanning calorimetry (DSC). The results show that A_s (reverse transformation start temperature) and A_f (reverse transformation finish temperature) shift to lower temperature after training. The intervals of A_f-A_s and M_s-M_f (M_s and M_f are the martensite start and finish temperatures, respectively) increase and the heat of transformation decreases after training. The electrothermal driving characteristics of the TWSME springs were also investigated with alternating current density of 3.2-14.7 A/mm~2. It is found that the time response and the maximum contraction ratio greatly depend on the magnitude of the electrical current density.
Keywords:metallic materials  two-way shape memory spring  thermomechanical training  different scanning calorimetry (DSC)  electrothermal driving
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