陶瓷材料由于其具有较高的硬度、耐热性、化学稳定性和较低的摩擦系数,因而在工业领域得到了广泛的应用。新技术、新工艺的兴起和发展推动了陶瓷材料性能的完善和提高,工程陶瓷材料受到人们愈来愈多的观注,现已应用于航空航天、汽车、电子、冶金、切削工具等诸多领域,并且还在向新的领域不断延伸。陶瓷涂层是近几十年来发展起来的一种工艺技术。它采用多种工艺方法在金属基体表面上沉积陶瓷涂层,用这种方法制造出来的复合材料既具有陶瓷的耐高温、耐磨、耐蚀的特性,同时又具备金属材料的强韧性、可加工性和导电导热特性。陶瓷 Due to its high hardness, heat resistance, chemical stability and low friction coefficient, ceramic materials have been widely used in the industrial field. The rise and development of new technology and new technology have promoted the improvement and improvement of the properties of ceramic materials. Engineering ceramic materials have been receiving more and more attention from people. Now they are used in many fields such as aerospace, automotive, electronics, metallurgy and cutting tools , And is still extending to new areas. Ceramic coating is a process developed in recent decades. It uses a variety of processes to deposit ceramic coating on the surface of the metal substrate. The composite material produced by this method not only has the characteristics of high temperature resistance, wear resistance and corrosion resistance of ceramic, but also possesses the toughness of the metal material. Processing and conductive thermal conductivity. ceramics