1)  transurethral plasmakinetic resection of prostate
等离子前列腺电切术
2)  Transurethral resection of the prostate
经尿道等离子前列腺电切术
3)  plasma
等离子体
1.
Combination of non-thermal plasma and heterogeneous catalysis for removal of low concentration benzene hydrocarbons in air;
非热等离子体与催化相结合去除气相低浓度苯系物
2.
Extraction and separation of intermediates in plasma degradation of benzene;
苯等离子体降解中间产物的萃取与分离
3.
Effects of energy injection on removal of benzene hydrocarbons in the air by discharge plasma;
能量注入对放电等离子体去除气相苯系物的影响
4)  plasma
等离子
1.
High efficient plasma welding technology and its application;
高效等离子焊接技术及其应用
2.
Cavitation erosion characteristics of Ni60+TiC plasma cladding layer;
Ni60+TiC等离子熔覆层的汽蚀特征
3.
Exergy analysis of thermal plasma reactor for coal gasification;
煤等离子气化反应器的火用分析
5)  plasma arc
等离子弧
1.
Effects of Ti-Mg on properties of plasma arc "in-situ" welding for SiCp/Al MMCs;
Ti-Mg对SiCp/Al复合材料等离子弧原位焊接性能的影响
2.
Usage and maintenance of welding and cutting machines(62)——Usage and maintenance of plasma arc cutting machine;
焊接与切割设备的使用和维修(六十二)——空气等离子弧切割机的使用与维修
3.
Strengthening planning for grooved surface with chromium-plating with plasma arc;
槽形表面镀铬层等离子弧强化工艺规划
6)  plasma beam
等离子束
1.
Fe-based alloy design in surface metallurgy by plasma beam;
等离子束表面冶金铁基合金的设计与研究
2.
Effects of compress argon arc plasma beam scanning on microstructure and composition of electroless Ni-P alloy layer;
压缩氩弧等离子束扫描对化学镀Ni-P合金镀层组织与成分的影响
3.
In view of the wear out of diesel engine cylinder liners,the high energy density plasma beam was applied to high speed scanning the liner surface of cylinder under atmospheric pressure and to make improvement treatment on the in-wall of cylinder liner partly so as to obtain the high hardness at hardened layer.
针对柴油机气缸套磨损失效现象,采用高能等离子束在常压下快速扫描气缸套内表面,对其进行局部硬化改性处理,获得了高硬度淬火硬化层。
参考词条
补充资料:填充离子交换树脂的电渗析器、电渗析填充床等
分子式:
CAS号:

性质:又称填充离子交换树脂的电渗析器、电渗析填充床等。这是将离子交换树脂充填入电渗析器隔室中,将电渗析与离子交换树脂结合一起的一种脱盐方法。这种装置可以提高脱盐室的电导,并能有效地防止极化沉淀以制备高纯水。但其结构比较复杂,拆装不便。其工作原理为:将H+,OH-型阳、阴树脂予混后填充入电渗析器脱盐室。在直流电场作用下,阴、阳树脂与溶液中的阴、阳离子进行交换。之后,由于电解再生,树脂分别又转为H+,OH-型,解吸的阴、阳离子分别通过阴、阳膜进入浓缩隔室。

说明:补充资料仅用于学习参考,请勿用于其它任何用途。