Optimum temperature for the sensing characteristics of MSMA
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- 英文论文题名:Optimum temperature for the sensing characteristics of MSMA
- 论文作者:Hui Ouyang ; Fuquan Tu ; Shengmou Hu ; Yuhang Zhuang ; Jie Lv ; Yunxue Wang ; Gen Li
- 英文论文作者:Hui Ouyang ; Fuquan Tu ; Shengmou Hu ; Yuhang Zhuang ; Jie Lv ; Yunxue Wang ; Gen Li ; Key Laboratory of Metallurgical Equipment and Control Technology (Wuhan University of Science and Technology) ; Ministry of Education
- 年:2017
- 作者机构:Key Laboratory of Metallurgical Equipment and Control Technology (Wuhan University of Science and Technology),Ministry of Education;
- 英文论文关键词:Magnetic controlled shape memory alloy ; experimental system ; sensing characteristics ; optimum temperature
- 会议召开时间:2017-07-26
- 会议录名称:第36届中国控制会议论文集(B)
- 英文会议录名称:Proceedings of the 36th Chinese Control Conference(B)
- 语种:英文
- 分类号:TG139.6
- 学会代码:KZLL
- 会议名称:第36届中国控制会议
- 会议地点:中国辽宁大连
- 主办单位:中国自动化学会控制理论专业委员会
- 学会名称:中国自动化学会控制理论专业委员会
- 页数:4
- 文件大小:314k
- 原文格式:D
- 会议级别:全国
摘要
Magnetically controlled shape memory alloy(MSMA) which has fast response, high energy density and other excellent characteristics, have a broad application prospects as a potential intelligent sensor materials. However, the unclear correlation between the environment temperature and the sensing characteristics limits the application of MSMA in the sensor field. According to the sensing characteristics of MSMA, through the real-time control of current and temperature in the experimental system, the experimental data such as compressive strains, stress and magnetic induction change of magnetic circuit in the bias magnetic field were recorded. Then, the optimum ambient temperature for the sensing characteristics of MSMA was proposed. The results show that the stress applied to the MSMA material can have a great influence on the magnetic induction intensity in the magnetic circuit at the op timum ambient temperature of 31℃. While the sensitivity of the sensing properties of MSMA depends on the magnitude of the change in the magnetic induction. Therefore, MSMA exhibits a high sensitivity at the optimum ambient temperature of 31℃.
Magnetically controlled shape memory alloy(MSMA) which has fast response, high energy density and other excellent characteristics, have a broad application prospects as a potential intelligent sensor materials. However, the unclear correlation between the environment temperature and the sensing characteristics limits the application of MSMA in the sensor field. According to the sensing characteristics of MSMA, through the real-time control of current and temperature in the experimental system, the experimental data such as compressive strains, stress and magnetic induction change of magnetic circuit in the bias magnetic field were recorded. Then, the optimum ambient temperature for the sensing characteristics of MSMA was proposed. The results show that the stress applied to the MSMA material can have a great influence on the magnetic induction intensity in the magnetic circuit at the op timum ambient temperature of 31℃. While the sensitivity of the sensing properties of MSMA depends on the magnitude of the change in the magnetic induction. Therefore, MSMA exhibits a high sensitivity at the optimum ambient temperature of 31℃.
Magnetically controlled shape memory alloy(MSMA) which has fast response, high energy density and other excellent characteristics, have a broad application prospects as a potential intelligent sensor materials. However, the unclear correlation between the environment temperature and the sensing characteristics limits the application of MSMA in the sensor field. According to the sensing characteristics of MSMA, through the real-time control of current and temperature in the experimental system, the experimental data such as compressive strains, stress and magnetic induction change of magnetic circuit in the bias magnetic field were recorded. Then, the optimum ambient temperature for the sensing characteristics of MSMA was proposed. The results show that the stress applied to the MSMA material can have a great influence on the magnetic induction intensity in the magnetic circuit at the op timum ambient temperature of 31℃. While the sensitivity of the sensing properties of MSMA depends on the magnitude of the change in the magnetic induction. Therefore, MSMA exhibits a high sensitivity at the optimum ambient temperature of 31℃.
引文
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[4]R.M ohr,K.Kratz,T.Weigel,et al.Initiation of shapememory effect by inductive heating of magnetic nanoparticles in thermoplastic polymers,Proceedings of the National Academy of Sciences of the United States of America,103(10):3540-3545,2006.
[5]S.Flaga,D.Kata,B.Sapiński.M icrostructure evaluation of Ni-M n-Ga alloy,Mechanics and Control,29(1):6-10,2010.
[6]C.Ambrosino,P.Capoluongo,S.Campopiano,et al.Fiber bragg grating and magnetic shape memory alloy:Novel highsensitivity magnetic Sensor,IEEE Sensors Journal,7(2):228-229,2007.
[7]A.Smith,J.Tellinen,P.Müllner,et al.Controlling twin variant configuration in a constrained Ni–M n–Ga sample using local magnetic fields,Scripta Materialia,77:68-70,2014.
[8]A.R.Smith,J.Tellinen,K.Ullakko.Rapid actuation and response of Ni–M n–Ga to magnetic-field-induced stress,Acta Materialia,80:373-379,2014.
[9]K.Ullakko,M.Chmielus,P.Müllner.Stabilizing a fine twin structure in Ni–M n–Ga samples by coatings and ion implantation,Scripta Materialia,94:40-43,2015.
[10]K.Ullakko,J.K.Huang,C.Kantner,et al.Large magnetic field induced strains in Ni2M n Ga single crystals,Applied Physics Letters,69(13):1966-1968,1996.
[11]I.Suorsa,J.Tellinen,K.Ullakko,et al.Voltage generation induced by mechanical straining in magnetic shape memory materials,Journal of Applied Physics,95(12):8054-8058,2004.
[12]I.Suorsa,E.Pagounis,K.Ullakko.M agnetization dependence on strain in the Ni–M n–Ga magnetic shape memory material,Applied Physics Letters,84(23):4658-4660,2004.
[13]I.Suorsa,E.Pagounis,K.Ullakko.Position dependent inductance based on magnetic shape memory materials,Sensors and Actuators A:Physical,121(1):136-141,2005.
[14]L.Jun,Y.Kuan,W.Fengxiang.M odel and experiment characteristic on vibration sensor of magnetically controlled
[2]G.H.Yu,Y.L.Xu,Z.H.Liu,et al.Recent progress in Heuslertype magnetic shape memory alloys,Rare Metals,34(8):527-539,2015.
[3]O.S?derberg,Y.Ge,A.Sozinov,et al.Recent breakthrough development of the magnetic shape memory effect in Ni–M n–Ga alloys,Smart Materials and Structures,14(5):S223,2005.
[4]R.M ohr,K.Kratz,T.Weigel,et al.Initiation of shapememory effect by inductive heating of magnetic nanoparticles in thermoplastic polymers,Proceedings of the National Academy of Sciences of the United States of America,103(10):3540-3545,2006.
[5]S.Flaga,D.Kata,B.Sapiński.M icrostructure evaluation of Ni-M n-Ga alloy,Mechanics and Control,29(1):6-10,2010.
[6]C.Ambrosino,P.Capoluongo,S.Campopiano,et al.Fiber bragg grating and magnetic shape memory alloy:Novel highsensitivity magnetic Sensor,IEEE Sensors Journal,7(2):228-229,2007.
[7]A.Smith,J.Tellinen,P.Müllner,et al.Controlling twin variant configuration in a constrained Ni–M n–Ga sample using local magnetic fields,Scripta Materialia,77:68-70,2014.
[8]A.R.Smith,J.Tellinen,K.Ullakko.Rapid actuation and response of Ni–M n–Ga to magnetic-field-induced stress,Acta Materialia,80:373-379,2014.
[9]K.Ullakko,M.Chmielus,P.Müllner.Stabilizing a fine twin structure in Ni–M n–Ga samples by coatings and ion implantation,Scripta Materialia,94:40-43,2015.
[10]K.Ullakko,J.K.Huang,C.Kantner,et al.Large magnetic field induced strains in Ni2M n Ga single crystals,Applied Physics Letters,69(13):1966-1968,1996.
[11]I.Suorsa,J.Tellinen,K.Ullakko,et al.Voltage generation induced by mechanical straining in magnetic shape memory materials,Journal of Applied Physics,95(12):8054-8058,2004.
[12]I.Suorsa,E.Pagounis,K.Ullakko.M agnetization dependence on strain in the Ni–M n–Ga magnetic shape memory material,Applied Physics Letters,84(23):4658-4660,2004.
[13]I.Suorsa,E.Pagounis,K.Ullakko.Position dependent inductance based on magnetic shape memory materials,Sensors and Actuators A:Physical,121(1):136-141,2005.
[14]L.Jun,Y.Kuan,W.Fengxiang.M odel and experiment characteristic on vibration sensor of magnetically controlled