1) magnetic shape memory effect
磁致形状记忆效应
1.
Ni_2MnGa ferromagnetic shape memory alloy, because of its characteristics of high ferromagnetism, large magnetostriction , thermoelastic and magnetic shape memory effect, high response frequency and large strain-stress output, has attractived the considerable interests from material and physical scientists.
本文阐述了与磁致形状记忆效应相关的孪晶界迁动的磁学和晶体学理论和特性,表明磁致形状记忆效应与传统热弹性形状记忆效应的类似以及与熟知的磁致伸缩效应的差别。
2) Electro-shape-memory effect
电致形状记忆效应
3) magnetic shape memory
磁致形状记忆
4) shape memory effect
形状记忆效应
1.
Study on microstructure and shape memory effect in weld joints of an Fe-Mn-Si-Cr-Ni alloy;
Fe-Mn-Si-Cr-Ni合金焊接接头组织和形状记忆效应研究
2.
Magnetic field-induced two-way shape memory effect on Ni_(50.5)Mn_(26.5)Ga_(23) single crytal;
Ni_(51.6)Mn_(23.4)Ga_(25)单晶磁场增强的双向形状记忆效应
3.
Research on shape memory effects in Cu-Zn-Al alloys by (SIM+SME) training method;
(SIM+SME)训练方法中的Cu-Zn-Al合金形状记忆效应研究
5) shape memory effect(SME)
形状记忆效应
1.
In order to further improve the shape memory effect(SME) and process efficiency of FeMnSiCrNiNbC alloy,the effects of different electropulsing treatment on microstructure and SME of the alloy were investigated.
为了进一步提高FeMnSiCrNiNbC合金的形状记忆性能以及提高其处理的效率,研究不同电脉冲处理对合金显微组织及形状记忆效应的影响。
2.
8Ni alloy are martensite plus TiO2,and the alloy shows shape memory effect(SME).
8Ni合金室温相组成为M和TiO2,呈形状记忆效应;形变温度超过110℃后合金呈超弹性。
6) SME
形状记忆效应
1.
INFLUENCE OF DIFFERENT HEAT TREATMENT ON SME AND MARTENSITIC TRANSFORMATION TEMPERATURES IN A Cu-Al-Mn ALLOY;
不同热处理对Cu-Al-Mn合金形状记忆效应和马氏体转变温度的影响
2.
88%) on theγ→εmartensite transformation of Fe- 24Mn alloys has been investigated by the optical microscopy, transmission electron microscopy (TEM), X-ray diffraction and measurement of shape memory effect (SME).
马氏体转变开始点 Ms降低 Ge增大 Fe-24Mn合金奥氏体的点阵常数,但对 Fe—24Mn合金形状记忆效应的影响并不显
3.
TiNi shape memory alloy possesses characteristics such as good SME, superelasticity and biocompactibility.
TiNi形状记忆合金具有良好的形状记忆效应、超弹性和生物相容性。
补充资料:磁致伸缩效应
磁致伸缩效应
magnetostrictive effect
物理学术语。铁磁材料在外磁场作用下产生弹性应变的现象。应变与磁场极性无关。这一效应包括其逆现象,即机械应力使铁磁材料内产生磁感应变化的现象。具有此效应的材料称为磁致伸缩材料,包括金属镍、铁钴钒合金、铝铁合金和铁氧体等。使用此类材料作换能材料制成的换能器,称为磁致伸缩换能器,可用于超声学检查等。
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