1)plasma microarc oxidation等离子体微弧氧化
1.In this paper, the development history and the research progress of plasma microarc oxidation, the basic principle and producing method of microarc oxidation are introduced and the characteristic and applications of microarc oxidation technique are summarized.等离子体微弧氧化技术是一种直接在有色金属表面原位生长陶瓷膜层的材料表面改性技术。
2)plasma micro-arc等离子微弧氧化
1.Study of plasma micro-arc oxidation on aluminum surface;铝材表面的等离子微弧氧化技术研究
英文短句/例句
1.The Surface Modification of the Alum-alloy by Plasma Micro-arc Oxidation铝合金的等离子微弧氧化表面改性研究
2.Duplexed Surface Modification of Ti6Al4V Alloy by Microarc Oxidation Combined with Plasma NitridingTi6Al4V合金表面微弧氧化及脉冲等离子体渗氮复合改性研究
3.Preparation of Nano-structure Oxide Powder by DC Arc Plasma and Sintered by Spark Plasma Sintering Technique;氧化物纳米粉末的直流电弧等离子体制备及放电等离子(SPS)烧结
4.Properties of 45 carbon steel hardened by micro-plasma微弧等离子45钢表面淬火硬化层性能分析
5.Study on 15CrMo Surface Modification by Micro-beam Plasma Arc;15CrMo微束等离子弧表面改性的研究
6.Action mechanism of solute ions on forming process of microarc oxidation coatings on aluminium alloy溶质离子在铝合金微弧氧化陶瓷膜形成过程中的作用机理
7.Effects of solute ions on forming process of microarc oxidation coatings on magnesium alloy溶质离子在镁合金微弧氧化膜形成过程中的作用
8.Plasma Stabilization in Low-Power C Band Microwave Arcjets; Final rept.低功率C波段微波电弧射流的等离子体稳定化/最终报告
9.Study on Color Coating on the Aluminum Alloys by Micro-plasma Oxidation;铝合金电解液中微等离子体氧化着色工艺研究
10.Microstructure of ZrO_2 Ceramics Coating Prepared by Plasma Spraying等离子喷涂制备氧化锆陶瓷涂层的显微组织
11.Microstructure and Anti-oxidation of NiCoCrAlYTa Coating Prepared by Low Pressure Plasma Spraying低压等离子喷涂NiCoCrAlYTa涂层微观结构及抗氧化性能
12.Bioactivity of Micro-plasma Sprayed Zirconia Coating微束等离子喷涂氧化锆涂层的生物活性研究
13.Surface Ceramics on Al and Mg Alloy with Micro-Arc Oxidation微弧氧化铝、镁等合金材料表面陶瓷化处理
14.Study on Welding Procedure Digital Control of Micro Plasma arc Welding Machine微束等离子弧焊机焊接程序数字控制研究
15.Synthesis of Coal-based Carbon Nano-/micro-material by DC Arc Discharge Method;电弧等离子体法煤基碳纳米/微米材料的制备
16.Study of Seam Tracking Based on Micro Plasma Arc;基于微束等离子弧的焊缝跟踪传感研究
17.Micro-plasma Sprayed Hollow Mullite Thermal Barrier Coatings微弧等离子喷涂制备空心莫来石隔热涂层研究
18.Study on Sealing Process of PAW for Micro-groove Heat Pipe微沟槽热管等离子弧焊接封口工艺研究
相关短句/例句
plasma micro-arc等离子微弧氧化
1.Study of plasma micro-arc oxidation on aluminum surface;铝材表面的等离子微弧氧化技术研究
3)Micro-plasma oxidation微等离子体氧化
1.Effects of micro-plasma oxidation ceramic coatings on the galvanic corrosion of TC4 alloy;微等离子体氧化陶瓷膜对钛合金接触腐蚀的影响
2.Effect of phosphate on structure and anticorrosive properties of ceramic film grown on Ti alloy by micro-plasma oxidation;磷酸盐对钛合金微等离子体氧化陶瓷膜结构和耐蚀性的影响
3.Study on the performance of TiO_2 film preparation by micro-plasma oxidation;微等离子体氧化法制备TiO_2薄膜的性能研究
4)Micro plasma oxidation微等离子体氧化
1.A layer of ceramic film can be grown on Ti alloy by the micro plasma oxidation.在钛合金表面用微等离子体氧化能产生一层陶瓷膜。
2.Microporous titanium dioxide thin films were fabricated on titanium base by the micro plasma oxidation method with different current density (5, 10 and 15 A·dm -2 ).在不同的电流密度下 ( 5 ,10 ,15A·dm- 2 ) ,微等离子体氧化法在钛基体上产生了多孔的二氧化钛陶瓷膜。
5)Microplasma oxidation微等离子体氧化
1.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.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。
2.The phase and microhardness distributions in ceramic coating formed by microplasma oxidation on LY12 aluminum alloy were investigated using X - ray diffractometer and microhardness tester.使用X射线衍射仪和显微硬度计测定了LY12铝合金微等离子体氧化陶瓷膜沿深度方向 的相分布及显微硬度变化曲线。
3.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。
6)micro-plasma hardening微弧等离子硬化
延伸阅读
等离子弧切割 用等离子弧作为热源、借助高速热离子气体熔化和吹除熔化金属而形成切口的热切割。等离子弧切割的工作原理与等离子弧焊相似,但电源有 150伏以上的空载电压,电弧电压也高达100伏以上。割炬的结构也比焊炬粗大,需要水冷。等离子弧切割一般使用高纯度氮作为等离子气体,但也可以使用氩或氩氮、氩氢等混合气体。一般不使用保护气体,有时也可使用二氧化碳作保护气体。等离子弧切割有3类:小电流等离子弧切割使用70~100安的电流,电弧属于非转移弧,用于5~25毫米薄板的手工切割或铸件刨槽、打孔等;大电流等离子弧切割使用100~200安或更大的电流,电弧多属于转移弧(见等离子弧焊),用于大厚度(12~130毫米)材料的机械化切割或仿形切割;喷水等离子弧切割,使用大电流,割炬的外套带有环形喷水嘴,喷出的水罩可减轻切割时产生的烟尘和噪声,并能改善切口质量。等离子弧可切割不锈钢、高合金钢、铸铁、铝及其合金等,还可切割非金属材料,如矿石、水泥板和陶瓷等。等离子弧切割的切口细窄、光洁而平直,质量与精密气割质量相似。同样条件下等离子弧的切割速度大于气割,且切割材料范围也比气割更广。(见彩图)
