在钛合金表面用微等离子体氧化能产生一层陶瓷膜。
A layer of ceramic film can be grown on ti alloy by the micro plasma oxidation.
此外,氩气等离子体不会像大气或氧气等离子体氧化银。
In addition, argon plasma will not oxidize silver unlike an air or oxygen plasma.
用微等离子体氧化法在钛金属基体上制备钛酸锶钡(BST)陶瓷膜。
Barium strontium titanate (BST) ceramic film is prepared on titanium substrate by micro-plasma oxidation.
采用可规模化的流光放电等离子体氧化技术,实现高浓度亚硫酸铵氧化;
A streamer plasma oxidation technique was developed to solve the problem in the oxidation of concentrated ammonium sulfite solution.
内容涉及低温等离子体的性质、低温等离子体氧化法的原理以及研究进展。
The content involves the character of cryogenic plasma, the principle and development of cryogenic plasma oxidation.
为提高钛合金的耐腐蚀性能,在其表面用微等离子体氧化法生长一层陶瓷膜。
A layer of ceramic film is produced by micro plasma oxidation on the surface of ti alloy in order to improve its corrosion resistant property.
研究了ADC12铝合金表面微等离子体氧化法制备黑色陶瓷膜的电解液成分和电参数等对膜层性能的影响。
Influences of main parameters such as composition of electrolyte and electrical parameters in preparing black ceramic coating by microplasma oxidation on ADC12 aluminum alloy were studied.
利用等离子体氧化技术对钛进行了表面处理,并对其组织形貌、晶体结构以及结合强度和弹性模量等力学行为进行了讨论。
The surface modification of titanium was processed by plasma electrolyte oxidation. The microstructure, crystal structure bonding strength and elastic modulus of the film were discussed.
本课题针对钛合金紧固件摩擦学性能的改善,将微等离子体氧化技术应用在钛合金紧固件表面改性上,以提高其可靠性和重复使用性。
In this paper, in order to improve reliability and repetitive-use properties of titanium fastening piece, microplasma oxidation method had been advanced on the surface technology.
本课题针对钛合金紧固件摩擦学性能的改善,将微等离子体氧化技术应用在钛合金紧固件表面改性上,以提高其可靠性和重复使用性。
In this paper, in order to improve reliability and repetitive-use properties of titanium fastening piece, microplasma oxidation method had been advanced on the surface technology.
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