现代制造工程
現代製造工程
현대제조공정
Modern Manufacturing Engineering
2015年
10期
12-17,21
,共7页
杨军%黄向明%蒋福星%蒋为
楊軍%黃嚮明%蔣福星%蔣為
양군%황향명%장복성%장위
高速深磨%纳米硬质合金%磨削力%表面粗糙度
高速深磨%納米硬質閤金%磨削力%錶麵粗糙度
고속심마%납미경질합금%마삭력%표면조조도
high speed deep grinding%nano-cemented carbides%grinding force%surface roughness
采用树脂结合剂金刚石砂轮对不同晶粒度硬质合金进行了高速深磨试验,对比分析了砂轮速度、磨削深度以及工作台速度对磨削力、表面粗糙度及磨削表面形貌的影响,分析了纳米硬质合金材料高速深磨去除机理。试验结果表明:随着砂轮速度增加,工作台速度降低和磨削深度减小,将导致最大未变形磨屑厚度减小,单位面积磨削力减小,比磨削能增加,表面塑性去除比例增加。随着晶粒度的减少,磨削力和比磨削能降低,表面粗糙度值减少,纳米硬质合金更易表现为脆性断裂方式去除。对纳米硬质合金采用高速深磨工艺技术可以提高加工效率,同时可以保证较好的表面质量。
採用樹脂結閤劑金剛石砂輪對不同晶粒度硬質閤金進行瞭高速深磨試驗,對比分析瞭砂輪速度、磨削深度以及工作檯速度對磨削力、錶麵粗糙度及磨削錶麵形貌的影響,分析瞭納米硬質閤金材料高速深磨去除機理。試驗結果錶明:隨著砂輪速度增加,工作檯速度降低和磨削深度減小,將導緻最大未變形磨屑厚度減小,單位麵積磨削力減小,比磨削能增加,錶麵塑性去除比例增加。隨著晶粒度的減少,磨削力和比磨削能降低,錶麵粗糙度值減少,納米硬質閤金更易錶現為脆性斷裂方式去除。對納米硬質閤金採用高速深磨工藝技術可以提高加工效率,同時可以保證較好的錶麵質量。
채용수지결합제금강석사륜대불동정립도경질합금진행료고속심마시험,대비분석료사륜속도、마삭심도이급공작태속도대마삭력、표면조조도급마삭표면형모적영향,분석료납미경질합금재료고속심마거제궤리。시험결과표명:수착사륜속도증가,공작태속도강저화마삭심도감소,장도치최대미변형마설후도감소,단위면적마삭력감소,비마삭능증가,표면소성거제비례증가。수착정립도적감소,마삭력화비마삭능강저,표면조조도치감소,납미경질합금경역표현위취성단렬방식거제。대납미경질합금채용고속심마공예기술가이제고가공효솔,동시가이보증교호적표면질량。
An investigation was undertaken to explore the grinding characteristics in high speed deep grinding of cemented carbide with various grain sizes by using resin-bonded diamond wheels. The experimental investigation focuses on the grinding force,sur-face roughness and the ground surface quality,which influenced by various wheel speeds,feed rates and depths of cut. Experimen-tal results have shown that the increasing of wheel speed,and the decreasing of feed rates and cut depths of cut will lead to the decreasing of maximum chip thickness, grinding force, and improvement of surface quality. A better surface finish, decreased grinding force and specific grinding energy are obtained on the workpiece with a smaller grain size,and the nano-cemented car-bide’ s removal mechanisms are more likely to be brittle. The application of high deep speed grinding on nano-cemented carbide can not only improve the machining efficiency,but also obtain a better surface finish.
