1) cryomilling
液氮球磨
1.
Synthesis and microstructure of nanocrystalline Al-Zn-Mg-Cu alloy powders by cryomilling;
液氮球磨制备Al-Zn-Mg-Cu纳米晶粉末及组织分析
2.
%) alloy powders were fabricated by mechanically milling at cryogenic temperature(cryomilling) in liquid nitrogen.
用液氮球磨技术制备了纳米晶Al-10。
3.
5083 aluminum alloy and B4C/5083 composite powder were prepared by cryomilling method to produce nanocrystalline powder,and its microstructure and tensile properties were studied.
利用液氮球磨法制备了5083铝合金和B4C/5083复合材料,对该材料的微观结构和拉伸性能进行了研究。
2) Liquid nitrogen grinding
液氮研磨
3) aqueous caustic ball milling
液碱球磨
4) Liquid nitrogen grounding method
液氮研磨法
5) solid-liquid reaction milling
固液反应球磨
1.
Fabrication of Al-Cu-Fe & Al- Si-Fe ternary alloy powders by solid-liquid reaction milling;
固液反应球磨制备Al-Cu-Fe与Al-Si-Fe三元合金
2.
Al-Cu-Ni ternary alloy powders were fabricated with a new solid-liquid reaction milling technology.
利用固液反应球磨技术制备了Al-Cu-Ni三元合金粉末。
3.
利用固液反应球磨技术制备了Al Cu Co三元合金。
6) ball mill
球磨
1.
Preparation of ultrafine α′-Fe(N) powders by ball mill method;
球磨法制备α′-Fe(N)超细粉末
2.
The application of fuzzy-PID control to a concentration process for ball milling density;
模糊PID在选矿球磨浓度控制中的应用
3.
The Fe-Co-Nb-B nanocrystalline powders were mechanically alloyed with a vibrational high energy ball mill.
采用机械合金化方法,在摆振式高能球球磨机上制备Fe-Co-Nb-B纳米晶合金粉末,计算球磨后应力带来的晶格畸变对X射线衍射峰宽化的影响。
补充资料:液氮
分子式:N2
分子量:28.01
CAS号:7727-37-9
性质:熔点-210°C。沸点-196°C。
分子量:28.01
CAS号:7727-37-9
性质:熔点-210°C。沸点-196°C。
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