纳米技术与精密工程
納米技術與精密工程
납미기술여정밀공정
NANOTECHNOLOGY AND PRECISION ENGINEERING
2012年
1期
89-94
,共6页
邓乾发%袁巨龙%吕冰海%楼飞燕%杭伟%王志伟
鄧乾髮%袁巨龍%呂冰海%樓飛燕%杭偉%王誌偉
산건발%원거룡%려빙해%루비연%항위%왕지위
半固着磨具(SFAT)%材料去除率%磨耗率
半固著磨具(SFAT)%材料去除率%磨耗率
반고착마구(SFAT)%재료거제솔%마모솔
semi-fixed abrasive tool(SFAT)%material removal rate%wear rate
为获得先进陶瓷材料的高效、高精度加工,通过采用新研制的半固着磨具来实现一种半固着磨粒加工技术.制作了以SiC为磨料的不同粒度和磨料浓度的半固着磨具(SFAT),讨论分析了磨料粒度和磨料浓度对半固着磨具特性(剪切强度和表面硬度等)的影响.采用所制作的半固着磨具加工单晶硅片,研究半固着磨具的磨耗率和工件材料去除率.初步实验结果表明,磨料粒度#1000和磨料质量分数为65%的半固着磨具的磨具磨耗率最小且工件材料去除率最大.实验结果有助于指导半固着磨具制作.
為穫得先進陶瓷材料的高效、高精度加工,通過採用新研製的半固著磨具來實現一種半固著磨粒加工技術.製作瞭以SiC為磨料的不同粒度和磨料濃度的半固著磨具(SFAT),討論分析瞭磨料粒度和磨料濃度對半固著磨具特性(剪切彊度和錶麵硬度等)的影響.採用所製作的半固著磨具加工單晶硅片,研究半固著磨具的磨耗率和工件材料去除率.初步實驗結果錶明,磨料粒度#1000和磨料質量分數為65%的半固著磨具的磨具磨耗率最小且工件材料去除率最大.實驗結果有助于指導半固著磨具製作.
위획득선진도자재료적고효、고정도가공,통과채용신연제적반고착마구래실현일충반고착마립가공기술.제작료이SiC위마료적불동립도화마료농도적반고착마구(SFAT),토론분석료마료립도화마료농도대반고착마구특성(전절강도화표면경도등)적영향.채용소제작적반고착마구가공단정규편,연구반고착마구적마모솔화공건재료거제솔.초보실험결과표명,마료립도#1000화마료질량분수위65%적반고착마구적마구마모솔최소차공건재료거제솔최대.실험결과유조우지도반고착마구제작.
To achieve the components of the highest quality in terms of shape,dimension and surface integrity and high efficiency in the course of processing advanced ceramics,the concept of semi-fixed abrasive machining,which employs a newly developed semi-fixed abrasive tool (SFAT) as machining tool was put forward.The manufacturing process of the SFAT was introduced.A series of SFAT made of SiC abrasive was used in this study.Shear strength and surface hardness of SFAT were investigated.Silicon wafers were taken as workpieces.Material removal rate of workpieces and SFAT wear in processing were discussed.Comparatively,with grit number #1000 and mass fraction 65% of SFAT,SFAT wear was minimum and material removal rate was maximum.This result can illumine to manufacture SFAT and instruct semi-fixed abrasive machining.