超硬脆材料的难加工性制约了其推广应用。
Hard machinability of hard-brittle material is crucial for its application.
首先介绍了高速切削加工难加工材料的特点,通过对高速切削机理的研究,分析难加工材料高速切削加工的可行性。
Following the introduction of the characteristics and cutting mechanism of high speed machining, we educe the feasibility of the high speed machining difficult-to-machine materials.
通过陶瓷自身显微结构设计来增强陶瓷材料的可加工性是解决陶瓷难加工问题的关键。
Improving machinability of engineering ceramic materials via microstructural design is the key to resolving the problem of difficult machining of ceramic materials.
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