1) Mn-Ni alloying
Mn和Ni合金化
2) Ni-Mn alloy
Ni-Mn合金
1.
Influence of heat treatment on dynamic compressive property of Ni-Mn alloy;
热处理对Ni-Mn合金动态压缩性能的影响
2.
The pulse electroforming process of Ni-Mn alloy was carried out by the flushing electrolyte device.
利用冲液装置进行了Ni-Mn合金的脉冲电铸试验,研究了电铸工艺参数对电铸层锰含量的影响。
3) Mn-Ni alloy
Mn-Ni合金
1.
By dynamic mechanical analyzer (DMA), resistance method and transmission electron microscope (TEM), the relationships of the internal friction and moduli of Mn-Ni alloys with temperature were measured, Ms and tn were confirmed and the microstructure was observed.
采用动力学分析方法(DMA)、电阻法和透射电镜(TEM),分别测量了Mn-Ni合金的内耗、模量与温度的变化关系和Ms,tn点,观察了合金的显微组织,并与Mn-Cu合金进行了对比分析以研究反铁磁转变、马氏体相变之间的耦合机制,以及反铁磁转变和马氏体相变对孪晶形成的作用。
4) Ni-Mn-Ga alloy
Ni-Mn-Ga合金
1.
Ni-Mn-Ga alloy is well known for its shape memory effect,and now is well-studied in magnetic refrigeration as a potential magnetic refrigerant for its giant magnetocaloric effect.
Ni-Mn-Ga合金具有形状记忆效应与巨磁热效应特征,是一种具有良好应用前景的新型磁性功能材料。
2.
Using DSC, TEM and compress test, the effect of deformation on martensitic transformation and microstructure of the Ni-Mn-Ga alloy has been investigated.
研究了形变对Ni-Mn-Ga合金马氏体相变及其组织形态的影响,并应用马氏体相变热力学和动力学探讨了适当塑性变形后马氏体相变滞后得以大幅度提高的微观本质。
3.
The effects of exoteric factor including temperature, compressive stress and magnetic field on the martensitic transformation temperature and strain in Ni-Mn-Ga alloys have been studied by means of resistivity measurement, optical microscopy, strain measurement, atomic force microscopy, AC-susceptibility, DSC and X-ray diffraction.
本文采用了电阻测试、金相分析、应变测量、原子力显微镜分析、交流磁化率及DSC、X射线等手段,研究了外界因素如温度、应力和磁场对Ni-Mn-Ga合金多晶、单晶样品马氏体相变温度和应变的影响,同时对相变过程中合金的微观组织进行了观察。
5) Cu-Mn-Ni alloy
Cu-Mn-Ni合金
6) Ni Mn Co alloy
Ni-Mn-Co合金
补充资料:机械合金化高温合金管材和方型材
机械合金化高温合金管材和方型材
机械舍金化高温合金管材和方型材
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