The cutting experiments for difficult-to-machine materials have shown that the cutting rate can be increased much more, the surface quality improved and the probability of wire-breaking reduced.
对难加工材料的切割实验表明:复合工艺能较大幅度地提高加工效率,改善表面质量,降低断丝概率。
参考来源 - 难加工材料的超声电火花线切割复合加工工艺研究 Study on the processing of difficult·2,447,543篇论文数据,部分数据来源于NoteExpress
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.
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。
Engineering ceramic materials are difficult to machine because of their outstanding properties, such as high hardness, high wear resistance, high erosion resistance and high brittleness.
工程陶瓷因为具有极高的硬度、良好的耐磨耐蚀性和很高的脆性,使其成为难加工材料。
Hot machining becomes an effective method to machine difficult machining materials.
加热切削已成为能够加工难加工材料的有效方法。
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