异形旋转体磁性复合流体抛光试验研究
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摘要
针对异形曲面抛光效率和抛光精度要求的不断提高,提出采用自主研发的卧式磁性复合流体(Magneticcompoundfluid,MCF)抛光轮对异形旋转体工件进行抛光试验。以H26黄铜材料为样件,展开抛光试验,并对抛光前后样件的表面形貌、表面粗糙度及表面材料去除率进行研究。实验结果表明,该抛光工艺能够高效率地实现样件表面材料的去除,并可获得较好的表面质量。
Aiming at the improvement of polishing efficiency and polishing precision requirements of special-shaped surfaces, a new polishing tool named magnetic compound fluid(MCF) wheel is proposed to perform the polishing process on shaped rotating body. The polishing test is carried out with H26 brass material, and the surface morphology, surface roughness and surface material removal rate of the samples are studied after polishing. The experimental results show that this processing method can effectively remove the surface material of the sample and better surface quality can be obtained.
Aiming at the improvement of polishing efficiency and polishing precision requirements of special-shaped surfaces, a new polishing tool named magnetic compound fluid(MCF) wheel is proposed to perform the polishing process on shaped rotating body. The polishing test is carried out with H26 brass material, and the surface morphology, surface roughness and surface material removal rate of the samples are studied after polishing. The experimental results show that this processing method can effectively remove the surface material of the sample and better surface quality can be obtained.
引文
[1]焦黎,吴勇波,郭会茹.磁场分布对磁性复合流体抛光材料去除率的影响[J].机械工程学报,2013,49(17):79-84.
[2]高宏刚,陈斌,曹健林.超光滑光学表面加工技术[J].光学精密工程,1995(4):7-14.
[3]陈杨,陈建清,陈志刚.超光滑表面抛光技术[J].江苏大学学报:自然科学版,2003(5):55-59.
[4] Tani Y, Kawata K. Development of high-efficient fine finishing process using magnetic fluid[J]. Annals of the CIRP, 1994,33(1):217-225.
[5] Shimada K, Akagami Y. Characteristics of magnetic compound fluid[J]. CIRP Annals, 1984, 33(1):217-220.
[6] Wu Yongbo, Shimada K, Wong Y C, et al. Effects of particles blend ratio on surface quality in surface polishing using magnetic polishing liquid(MPL)[J]. Key Eng Mater, 2005:337-342.
[7]周志雄,周秦源,任莹晖.复杂曲面加工技术的研究现状与发展趋势[J].机械工程学报,2010,46(17):105-113.
[8]李文妹,姜晨,许继鹏,等.光学玻璃磁性复合流体抛光液研究[J].激光与光电子学进展,2016,53(6):272-279.
[9]王续跃,吴勇波,姜健,等.磁性复合抛光体配制及其抛光性能试验研究[J].大连理工大学学报,2006,46(6):832-836.
[10]杨仕清,张万里,龚捷,等.磁流变液的流变学性质研究[J].功能材料,1998,29(5):550-552.
[2]高宏刚,陈斌,曹健林.超光滑光学表面加工技术[J].光学精密工程,1995(4):7-14.
[3]陈杨,陈建清,陈志刚.超光滑表面抛光技术[J].江苏大学学报:自然科学版,2003(5):55-59.
[4] Tani Y, Kawata K. Development of high-efficient fine finishing process using magnetic fluid[J]. Annals of the CIRP, 1994,33(1):217-225.
[5] Shimada K, Akagami Y. Characteristics of magnetic compound fluid[J]. CIRP Annals, 1984, 33(1):217-220.
[6] Wu Yongbo, Shimada K, Wong Y C, et al. Effects of particles blend ratio on surface quality in surface polishing using magnetic polishing liquid(MPL)[J]. Key Eng Mater, 2005:337-342.
[7]周志雄,周秦源,任莹晖.复杂曲面加工技术的研究现状与发展趋势[J].机械工程学报,2010,46(17):105-113.
[8]李文妹,姜晨,许继鹏,等.光学玻璃磁性复合流体抛光液研究[J].激光与光电子学进展,2016,53(6):272-279.
[9]王续跃,吴勇波,姜健,等.磁性复合抛光体配制及其抛光性能试验研究[J].大连理工大学学报,2006,46(6):832-836.
[10]杨仕清,张万里,龚捷,等.磁流变液的流变学性质研究[J].功能材料,1998,29(5):550-552.