1) giant magnetostrictive smart component
超磁致伸缩智能构件
1.
Implementation of sliding mode control of giant magnetostrictive smart component by neural network
用神经网络结构实现超磁致伸缩智能构件滑模控制
2) Giant magnetostrictive device
超磁致伸缩器件
3) magnetostriction material
磁致伸缩智能材料
1.
Development progress of intelligent magnetostriction materials
磁致伸缩智能材料研究进展
4) magnetostriction
[英][mæg,ni:təu'strikʃən] [美][mæg,nito'strɪkʃən]
超磁致伸缩
1.
The results show that the annealing can influence the microstructure and magnetostriction in the TbDyFe alloy.
采用区域定向凝固方法制备<110>取向的TbDyFe超磁致伸缩合金,用管式氩气保护进行了热处理方面的工作,全面研究热处理条件的变化对(Tb,Dy)Fe2超磁致伸缩合金的超磁致伸缩性能以及组织的影响。
2.
It was found that, after annealing, <110> preferred orientation is unchanged, the net shape pseudo-eutectic rare earth phase trends discontinuous and spheroidal, magnetostriction slightly decreased without pre-stress but increased o.
采用区熔定向凝固的方法,制备〈110〉取向Tb-Dy-Fe超磁致伸缩合金晶体。
3.
The effect of GMM alloy and epoxy volume ratio on magnetostriction and density of GMPC was studied,and dynamic resistivity of GMPC was tested and discussed.
采用粉末粘结-压缩成型工艺制备出性能良好的超磁致伸缩复合材料(Giant Magnetostrictive Powder Composite,GMPC),着重研究了合金粉末与绝缘树脂的配比对 GMPC 的磁致伸缩性能及密度的影响规律, 并对其动态电阻率进行了测试分析。
5) giant magnetostriction
超磁致伸缩
1.
Analysis on eddy current effect in giant magnetostriction with finite element method;
超磁致伸缩体内涡流效应有限元分析
2.
Magnetostrictive sensitivity of TbDyFe giant magnetostriction film at low magnetic field;
TbDyFe超磁致伸缩薄膜的低场磁敏特性
3.
Based on the study of micromanipulator, the application of giant magnetostriction materials is explored.
针对Tb-Dy-Fe系合金,研究了超磁致伸缩材料的磁致伸缩原理、基本性能和主要影响参数,并结合现代微器人的研究和开发,探讨了超磁致伸缩材料的实际应用。
6) giant magnetostrictive
超磁致伸缩
1.
Novel model of active vibration isolation based on giant magnetostrictive actuator;
一种新颖超磁致伸缩作动器的隔振模型
2.
Model building and hysteresis compensation for giant magnetostrictive actuator;
超磁致伸缩驱动器建模及其迟滞补偿
3.
Research of making dynamic model of giant magnetostrictive transducers;
超磁致伸缩换能器的建模方法
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。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条