用高强度、高模量的耐热纤维增强金属可以制得比金属性能更为优异的新型材料。纤维增强金属基复合材料的性能取决于所选用的纤维和基体金属的类型及性能、复合材料中纤维含量和分布、复合材料的制造方法,以及界面效应。控制这些因素可以制得性能范围很宽和满足各种特殊要求的金属基复合材料。在一些使用温度高、另部件的尺寸稳定性和刚性要求 With high strength, high modulus heat-resistant fiber reinforced metal can be made of more excellent performance than the new metal materials. The performance of a fiber-reinforced metal matrix composite depends on the type and properties of the fiber and matrix metal chosen, the fiber content and distribution in the composite, the method of manufacturing the composite, and the interfacial effect. Controlling these factors makes it possible to produce metal matrix composites with a wide range of properties and a wide variety of special requirements. In some service temperatures, the other parts of the dimensional stability and rigidity requirements