1) plasma electrolytic saturation
等离子体电解渗入
1.
Nitrocarburising coating is synthesized on the surface of Ti6Al4V by plasma electrolytic saturation (PES) in the aqueous solution containing ammonium nitrate, glycerol and ethanol.
在含有硝酸铵、甘油、乙醇的水溶液中,利用等离子体电解渗入技术在Ti6Al4V钛合金表面制备了氮碳共渗层。
2) PEN/C
等离子体电解氮碳共渗
1.
Plasma electrolytic nitrocarburising(PEN/C) coatings were prepared on TC4 alloys by plasma electrolytic saturation.
利用等离子体电解渗技术,在TC4钛合金表面制备了等离子体电解氮碳共渗(PEN/C)层。
3) plasma electrolysis
等离子体电解
1.
Meanwhile,the development of plasma electrolysis in surface engineering is prospected.
等离子体电解过程可以产生多种物理化学效应,利用其效应发展了各种新兴的现代表面技术。
2.
In this dissertation, plasma electrolysis carburising, nitriding andcarbonitriding technique in solution was applied to improve the wear resistanceand anti-corrosion properties of steel for Q235 steel at open environment andgiven electrolyte.
本文以实现在开放的大气环境下、特定的电解液中应用液相等离子体电解渗透技术对钢件进行快速渗氮、渗碳、碳氮共渗处理来提高其工件的耐磨、耐蚀性能为目的。
4) glow discharge electrolysis plasma
辉光放电电解等离子体
1.
Synthesis of poly(methyl methacrylate) by glow discharge electrolysis plasma in ionic liquid
离子液体中辉光放电电解等离子体合成聚甲基丙烯酸甲酯
2.
The basic concept of glow discharge electrolysis plasma (GDEP) was also introduced.
我们研究了辉光放电电解等离子体技术在制备高分子材料方面的应用。
5) implanting and nitriding
等离子体注渗氮
1.
The effects of technological parameters such as temperature and voltage on the microstructure,nanohardness and corrosion performance of 1Cr18Ni9 austenitic stainless steel treated by plasma based ion implanting and nitriding technique were investigated.
研究了等离子体注渗氮的温度和注渗电压对1Cr18Ni9奥氏体不锈钢注渗层组织结构、纳米硬度及腐蚀性能的影响规律。
6) plasma electrolysis saturation
等离子体渗透
1.
According to plasma electrolysis oxidation (PEO) and plasma electrolysis saturation (PES) processes, mechanism, preparation, influencing factor and properties of coatings were described in the paper: The application of PED was forecasted.
本文分别从等离子体氧化和等离子体渗透两个方面介绍了该技术的工艺机理、制备及影响因素、膜层性能 ,并展望了其应用前
补充资料:电解食盐水溶液离子膜电解槽所用的膜材料之一
分子式:
CAS号:
性质:又称全氟羧酸-磺酸复合离子膜 Rf-COOH-Rf-SO3H 电解食盐水溶液离子膜电解槽所用的膜材料之一。使用时,将较薄的羧酸层面向阴极,较厚的磺酸层面向阳极,因而兼有羧酸膜和磺酸膜的优点。由于Rf-COOH层的存在,可阻挡氢氧离子返迁移到阳极室,确保了高的电流效率(96%),因Rf-SO3层的电阻低,能在高电流密度下运行,且阴极液可用盐酸中和,产品氯气中氧含量低,氢氧化钠浓度可达33%~35%。可在全氟磺酸膜上涂敷一层全氟羧酸的聚合物,或是将磺酸膜和羧酸膜进行层压,或是采用化学方法处理而制得的复合膜。现以采用化学方法处理者质量最佳。
CAS号:
性质:又称全氟羧酸-磺酸复合离子膜 Rf-COOH-Rf-SO3H 电解食盐水溶液离子膜电解槽所用的膜材料之一。使用时,将较薄的羧酸层面向阴极,较厚的磺酸层面向阳极,因而兼有羧酸膜和磺酸膜的优点。由于Rf-COOH层的存在,可阻挡氢氧离子返迁移到阳极室,确保了高的电流效率(96%),因Rf-SO3层的电阻低,能在高电流密度下运行,且阴极液可用盐酸中和,产品氯气中氧含量低,氢氧化钠浓度可达33%~35%。可在全氟磺酸膜上涂敷一层全氟羧酸的聚合物,或是将磺酸膜和羧酸膜进行层压,或是采用化学方法处理而制得的复合膜。现以采用化学方法处理者质量最佳。
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