2) electrospark deposition
电火花沉积
1.
Forming mechanism and microtructural characteristics of TiN coatings prepared by electrospark deposition under nitrogen atmosphere;
氮气氛下电火花沉积TiN层的形成机理及微观特征
2.
Interface behavior of WC-8Co coating on Ti alloy produced by electrospark deposition;
TC1合金表面电火花沉积WC-8Co涂层界面行为
3.
Characteristics of TiB_2 coating on surface of copper electrode prepared by electrospark deposition
点焊电极表面电火花沉积TiB_2涂层的特征
3) electro-spark deposition
电火花沉积
1.
In this investigation, by utilizing a new electro-spark deposition equipment .
电火花沉积不是电极材料在基体上简单的镀覆,沉积层实际为电极材料、工件材料在高温、高压下发生相互融渗、物理化学冶金及合金化的结果。
2.
In order to prepare high quality alloy strengthening coatings and improve their tribological properties,the Ni-base alloy strengthening coatings were prepared by electro-spark deposition.
为了制备优质的电火花合金强化层,提高强化层摩擦学性能,本文运用电火花沉积工艺,制备了镍基合金强化层,研究了沉积工艺参数对镍基合金强化层摩擦学性能的影响规律。
3.
The electro-spark deposition with efficient surface strengthening technology,can be used to improve the reliability and service life of mechanical parts;its application potential is revealed in mechanical and electrical equipment.
电火花沉积技术是一种高效的表面强化技术,可有效提高机械零部件的寿命和可靠性,在机电设备的应用中显示出了巨大的潜力。
4) EDM deposition
电火花沉积
1.
Research on micro spiral structure using EDM deposition in air;
空气中电火花沉积微螺旋结构的研究
2.
A thermal model of micro-EDM deposition machining in gas was built,through selecting proper heat-source model,thermal boundary condition and diameter of discharge channel etc.
通过选取合适的热源模型、热边界条件和放电通道半径等,建立了气中微细电火花沉积加工的热传导模型。
3.
As a new method in the field of EDM, micro-EDM deposition (EDD) in gas is a big breakthrough in traditional manufacture.
气中微细电火花沉积加工作为电火花加工领域的一种新方法,是传统加工方法的一大突破。
5) ESD
电火花沉积
1.
Study on Electro-spark Deposition Process and Property of ESD Coating;
电火花沉积工艺及沉积层性能的研究
2.
The paper introduces TC1 alloy with WC-8Co anode by DZ4000 ESD system, studies the influence of ESD processing parameter on the thickness of deposition layer.
采用DZ4000新型电火花沉积系统在TC1合金表面沉积WC-8Co电极材料,研究多项工艺参数同时变化时沉积层厚度的变化规律。
3.
The test results indicated that the ESD Process would influence the microstructure and clement distributing in the deposited coating.
采用新型电火花沉积设备 ,把YG8电极材料沉积在基体材料不锈钢 (1Cr1 5Ni9Ti)上 ,采用X射线仪和扫描电镜分析了白亮层的组织结构和元素分布。
6) electric-spark deposition
电火花沉积
1.
Ti(CN) coating sythesized by electric-spark deposition on TC4 titanium alloy
TC4钛合金电火花沉积反应合成Ti(CN)涂层
2.
Model DZ-1400 electric-spark deposition machine taking high-purity graphite rod as electrode was adopted for depositing a TiC /Ti composite coating with the thickness of 70~110 μm on TC4 titanium alloy substrate.
利用DZ-1400型电火花沉积/堆焊机,以高纯石墨为电极,在TC4钛合金基体表面制备了厚度为70~110μm的TiC增强金属Ti基复合涂层。
补充资料:电火花
分子式:
CAS号:
性质:电极间击穿放电时的强烈流柱。大量电火花汇集成电弧。电火花的温度高达摄氏数千度,不仅能直接引起可燃物燃烧,还能使金属熔化、飞溅,构成二次火源。产生电火花的处所和操作过程有(1)刀开关、断路器、接触器等电气设备操作过程中。(2)直流电动机的电刷与换向器的滑动接触处、绕线式异步电动机的电刷与滑环的滑动接触处。(3)电气设备或电气线路的绝缘发生过电压击穿、发生短路、故障接地、导线断开或接头松动时。(4)熔断器的熔体断开。(5)雷电放电、静电放电、电磁感应放电等。
CAS号:
性质:电极间击穿放电时的强烈流柱。大量电火花汇集成电弧。电火花的温度高达摄氏数千度,不仅能直接引起可燃物燃烧,还能使金属熔化、飞溅,构成二次火源。产生电火花的处所和操作过程有(1)刀开关、断路器、接触器等电气设备操作过程中。(2)直流电动机的电刷与换向器的滑动接触处、绕线式异步电动机的电刷与滑环的滑动接触处。(3)电气设备或电气线路的绝缘发生过电压击穿、发生短路、故障接地、导线断开或接头松动时。(4)熔断器的熔体断开。(5)雷电放电、静电放电、电磁感应放电等。
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