新型陶瓷在空间技术、电子技术、机械工程、能源工程等方面都得到日益广泛的应用。陶瓷的广泛应用取决于:1、创造出能适合各种特殊要求的新品种; 2、加工出所要求的形状和表面质量。陶瓷材料的加工与我们通常所遇到的金属等塑性材料的加工有完全不同的规律。一、陶瓷材料适用的加工方法各种陶瓷材料由于其特有的成份和组织而具有许多优异性能。其中包括热性能、力学性能、化学性能、电磁性能和光学性能等。要把这些具有优异性能的材料变成人们要求的零件或成品就必须经过加工。按照加工能量施予的方式,陶瓷的加工方法可以 New ceramics have been widely used in space technology, electronic technology, mechanical engineering and energy engineering. The wide range of ceramic applications depends on: 1, to create a variety of special requirements for the new varieties; 2, processed the required shape and surface quality. The processing of ceramic materials and metal materials we generally encounter the processing of plastic materials have completely different laws. First, the processing methods for ceramic materials Various ceramic materials due to its unique composition and organization has many excellent properties. Including thermal performance, mechanical properties, chemical properties, electromagnetic properties and optical properties. It is necessary to turn these materials with excellent properties into the required parts or finished products. According to the way of processing energy, ceramic processing methods can be