1) field-activated sintering
电场烧结法
1.
1 were prepared by the process of field-activated sintering in this paper.
采用电场烧结法制备出纳米复相Nd10。
2) electric field sintering
电场烧结
1.
Comparison studies on electric field sintering and traditional sintering technics of NdFeB permanent-magnet material;
NdFeB永磁材料电场烧结与传统烧结的对比研究
2.
NdFeB alloy were prepared by method of electric field sintering.
用电场烧结方法制备了NdFeB合金,通过对烧结压坯在保温过程中的收缩量和烧结体的SEM分析,研究了保温时间对烧结试样显微结构的影响。
3) electric field activated sintering
电场活化烧结
1.
The method was proposed that adopts axial alternating magnetic field coupled with the pulse electric field in order to improve the temperature gradient during electric field activated sintering(EFAST).
提出了在电场活化烧结过程中施加轴向交变磁场与脉冲电场耦合改善烧结体径向温度场以减小其温度差的方法,并对不同大小磁场的作用进行了数值模拟。
2.
A basic model for electric field activated sintering was presented by electromagnet theory, and the equations coupling electric field and temperature field were set up based on the theories of microscale heat transfer and electromagnetics.
根据电磁理论及微/纳米尺度热波模型,建立了粉末电场活化烧结过程中温度场-电场耦合控制方程,利用有限元方法对纯钛粉试样电场活化烧结中的热电效应进行了数值模拟,得到电场活化烧结过程中模冲、阴模及试样内的电流密度、焦耳热及温度场分布。
4) field activated sintering(FAS)
电场活化烧结(FAS)
5) electrodeposition-sinter method
电沉积-烧结法
6) magnetic field sintering
磁场烧结
1.
The application of magnetic field sintering in preparation of materials in recent years is reviewed.
综述了近年来磁场烧结在材料制备中的应用情况,重点分析了磁场烧结对烧结动力学、材料组织结构等方面的影响,简要介绍了磁场烧结在超导材料制备中的应用。
补充资料:电场烧结
分子式:
CAS号:
性质:陶瓷坯体在直流电场作用下进行烧结的方法。某些高居里点的铁电陶瓷,如铌酸锂陶瓷在其烧结温度下对坯体的两端施加直流电场,待冷却至居里点以下,撤去电场,即可得到具有压电性的陶瓷制品。
CAS号:
性质:陶瓷坯体在直流电场作用下进行烧结的方法。某些高居里点的铁电陶瓷,如铌酸锂陶瓷在其烧结温度下对坯体的两端施加直流电场,待冷却至居里点以下,撤去电场,即可得到具有压电性的陶瓷制品。
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