随着超硬含铝高速钢及其他难加工材料在工具行业的不断应用,对刀具的磨削加工提出了更高的要求。
With the continuous application of ultra-hard high speed steel and other materials hard to be machined in tool industry, higher requirements have been put foward to the grinding process for tools.
针对不锈钢、钛合金材料的深孔加工问题,分析了难加工材料的切削特性。
Analyses the cutting property of stainless steel and titanium alloy to serve the problem of deep hole machining of difficult to cut materials.
综合应用析因试验设计与拉丁超立方抽样试验设计,对难加工材料马氏体不锈钢进行了高速铣削试验。
Factorials design and Latin hypercube sampling design are applied in the high-speed milling experiments of martensitic stainless steel.
由于一些难加工材料如钛合金、不锈钢在制造管类零件的领域中得到广泛应用,但其切削加工性较差,与其日益广泛应用所产生的矛盾越来越突出。
With the wide usage of some difficult processing materials in industry, such as Titanium, stainless steel, it is contradictory between the poor cutting quality and wide use.
适用于航空航天不锈钢、高温合金、钛合金等难加工材料的铣削。
Apply to milling stainless steel, high temperature alloy, hard-to-process material etc. in aerospace industry.
SS50适用于所有铁金属、合金钢及难加工材料如不锈钢、高镍钢和耐热钢等。
Ss 50is suitable for machining all the ferrous metals, steels and difficult to machine materials, such as stainless steel, high nickel steel and heat resisting steel.
SS50适用于所有铁金属、合金钢及难加工材料如不锈钢、高镍钢和耐热钢等。
Ss 50is suitable for machining all the ferrous metals, steels and difficult to machine materials, such as stainless steel, high nickel steel and heat resisting steel.
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