热喷涂9704001 高沉积速率的Jet-Kote耐磨厚涂层喷涂工艺的开发、技术笔记——Lee D.J Therm Spray Technol,1995,4(3):229(英文)Jet-Kote是一种高速氧气燃料喷涂工艺,用于制备高质量和高沉积速率的涂层,如制备含碳化物复合材料、合金化金属粉末、非金属粉末、金属间化合物粉末和纯金属粉末的涂层。这些作为耐蚀抗磨涂层可用于飞机、化工、石油、天然气、钢铁制造工业,也可用于其他领域,在许多应用领域中,尤其是石油、化学工业需要的厚涂层。涂层的应用必须考虑经济性,同时不降低其他性能,其厚度限制一般认为受涂层应力的影响,涂层太厚会导致涂层开裂、剥落以致于完全失败。讨论了工艺参数和技术对Stel-car JK-117碳化物-17％Co复合粉末制备的厚涂层物理性能影响,特别强调工艺参数能保证经济地达到较高的沉积速率。9704002 先进的抗蚀耐磨热喷涂涂层——Tucker R C.AdvCoat Technol Corros Wear Resist Coat,1995,89(英文)先进的热喷涂涂层工艺包括爆炸喷涂、超音速火焰喷涂和等离子弧喷涂,对每一种工艺均作简要论述,同时论述由各种工艺参数制备的涂层微观结构、机械性能和化学性能,并重点评述这些涂层在多种抗蚀耐磨场合下的应用,尤其重要的是采用这些涂层可作为替代涂层(如替代存在环境问题的电? Jet Thermal Spray Technol, 1995, 4 (3): 229 (English) Jet-Kote is a high-speed oxygen fuel Spraying process for the preparation of coatings of high quality and high deposition rates, such as coatings for carbide-containing composites, alloying metal powders, non-metal powders, intermetallic powders and pure metal powders. These are corrosion and abrasion-resistant coatings for the aircraft, chemical, petroleum, natural gas and steel manufacturing industries as well as for other applications. They are used in many applications, especially thick coatings for the petroleum and chemical industries. Coatings must be economical to use without sacrificing other properties. Thickness limits are generally considered to be affected by coating stresses. Too much coating can cause the coating to crack and peel so completely as to fail. The effect of process parameters and techniques on the physical properties of thick coatings prepared from Stel-car JK-117 carbide-17% Co composite powders is discussed, with particular emphasis on process parameters that ensure high deposition rates economically. 9704002 ADVANCED CORROSION-RESISTANT THERMAL SPRAY COATING - Tucker R. C. AdvCoat Technol Corros Wear Resist Coat, 1995, 89 Advanced thermal spray coating processes include explosive spraying, supersonic flame spraying and plasma arc spraying, Each process is briefly discussed. The microstructures, mechanical properties and chemical properties of the coatings prepared by various process parameters are also discussed. The application of these coatings in a variety of anti-wear and anti-wear applications is especially important The use of these coatings can be used as an alternative coating (as an alternative to environmental problems with electricity?