纳米技术与精密工程
納米技術與精密工程
납미기술여정밀공정
NANOTECHNOLOGY AND PRECISION ENGINEERING
2008年
6期
415-423
,共9页
硬质合金%磨削力%晶粒度
硬質閤金%磨削力%晶粒度
경질합금%마삭력%정립도
tungsten carbides%grinding force%grain size
介绍了磨削力数学模型研究现状,在断裂力学基础上建立了与工艺参数和材料物理机械性能相关的磨削力数学模型,可根据数学模型预报不同晶粒度硬质合金的磨削力.为了论证此磨削力数学模型,对不同晶粒度的硬质合金进行了磨削实验.分析了晶粒度和工艺参数对磨削力、磨削表面形貌的影响,讨论了硬质合金物理机械性能对磨削力的影响.实验研究结果表明,数学模型预估值与实验数据吻合程度高,晶粒度对磨削力和磨削表面形貌都有显著影响.在相同磨削条件下,减少硬质合金晶粒度则磨削力减少,并且磨削表面质量改善,反之亦然.细磨粒砂轮磨削时晶粒度对磨削力的影响程度减弱.
介紹瞭磨削力數學模型研究現狀,在斷裂力學基礎上建立瞭與工藝參數和材料物理機械性能相關的磨削力數學模型,可根據數學模型預報不同晶粒度硬質閤金的磨削力.為瞭論證此磨削力數學模型,對不同晶粒度的硬質閤金進行瞭磨削實驗.分析瞭晶粒度和工藝參數對磨削力、磨削錶麵形貌的影響,討論瞭硬質閤金物理機械性能對磨削力的影響.實驗研究結果錶明,數學模型預估值與實驗數據吻閤程度高,晶粒度對磨削力和磨削錶麵形貌都有顯著影響.在相同磨削條件下,減少硬質閤金晶粒度則磨削力減少,併且磨削錶麵質量改善,反之亦然.細磨粒砂輪磨削時晶粒度對磨削力的影響程度減弱.
개소료마삭력수학모형연구현상,재단렬역학기출상건립료여공예삼수화재료물리궤계성능상관적마삭력수학모형,가근거수학모형예보불동정립도경질합금적마삭력.위료론증차마삭력수학모형,대불동정립도적경질합금진행료마삭실험.분석료정립도화공예삼수대마삭력、마삭표면형모적영향,토론료경질합금물리궤계성능대마삭력적영향.실험연구결과표명,수학모형예고치여실험수거문합정도고,정립도대마삭력화마삭표면형모도유현저영향.재상동마삭조건하,감소경질합금정립도칙마삭력감소,병차마삭표면질량개선,반지역연.세마립사륜마삭시정립도대마삭력적영향정도감약.
After the existing grinding force models are reviewed,a grinding force mathematical model,which relates to workpiece material properties and grinding conditions,Was established based OH fracture mechanics.Based on the model,grinding force of tungsten carbide(WC)materials with various grain sizes Can be predicted.To verify the model,an experimental study on the WC materials was performed.The influences of the grain size of the WC materials and process parameters in grinding on grinding forces and ground surface topography were analyzed.Then,the relationship between grinding force and mechanical properties of the WC materials were discussed.The model prediction shows a good agreement with the experimental results.The grain size ofthe WC materials has an obvious effect 011 grinding force and ground surface topography.Under the same grinding conditions,a better surface finish and reduced grinding force are obtained on the WC workpiece with a smaller grain size,and vice versa.This phenomenon becomes less obvious when a grinding wheel with a smallgrit sizeisused.
