微晶陶瓷刚玉砂轮对微电机转子轴的磨削性能评价
TG74%TG58%TH162; 针对目前微电机转子轴无心外圆磨过程中砂轮修整频繁的问题,采用微晶陶瓷刚玉砂轮替代传统刚玉砂轮磨削微电机转子轴。通过搭建平面磨削工艺平台,参考无心磨砂轮修整及其磨削加工参数,从磨削温度、工件表面粗糙度、表面微观形貌、磨削比等方面,对比分析微晶陶瓷刚玉砂轮与传统刚玉砂轮的磨削性能。结果表明:相对传统刚玉砂轮,微晶陶瓷刚玉砂轮不仅有效改善磨削温度(降低38.5%) ,提高工件表面加工质量(表面粗糙度降低78.6%) ,还具有较高的砂轮磨削比(提高2.2倍)。选用微晶陶瓷刚玉砂轮对微电机转子轴进行无心磨生产线验证,结果表明:微电机转子轴无心磨样件的各项检测结果均满足实...
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| Published in | 金刚石与磨料磨具工程 Vol. 42; no. 5; pp. 578 - 584 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | Chinese |
| Published |
博世汽车部件(长沙)有限公司,长沙 410100%湖南大学机械与运载工程学院,长沙 410082
2022
国家高效磨削工程技术研究中心,长沙 410082%燕山大学机械工程学院,河北秦皇岛 066004 |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1006-852X |
| DOI | 10.13394/j.cnki.jgszz.2021.5004 |
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| Abstract | TG74%TG58%TH162; 针对目前微电机转子轴无心外圆磨过程中砂轮修整频繁的问题,采用微晶陶瓷刚玉砂轮替代传统刚玉砂轮磨削微电机转子轴。通过搭建平面磨削工艺平台,参考无心磨砂轮修整及其磨削加工参数,从磨削温度、工件表面粗糙度、表面微观形貌、磨削比等方面,对比分析微晶陶瓷刚玉砂轮与传统刚玉砂轮的磨削性能。结果表明:相对传统刚玉砂轮,微晶陶瓷刚玉砂轮不仅有效改善磨削温度(降低38.5%) ,提高工件表面加工质量(表面粗糙度降低78.6%) ,还具有较高的砂轮磨削比(提高2.2倍)。选用微晶陶瓷刚玉砂轮对微电机转子轴进行无心磨生产线验证,结果表明:微电机转子轴无心磨样件的各项检测结果均满足实际生产指标要求,且较传统刚玉砂轮延长了1.6倍的修整周期,在提高加工质量的同时,显著提高了生产效率。关键词 微电机转子轴;微晶陶瓷刚玉砂轮;磨削性能;生产效率 |
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| AbstractList | TG74%TG58%TH162; 针对目前微电机转子轴无心外圆磨过程中砂轮修整频繁的问题,采用微晶陶瓷刚玉砂轮替代传统刚玉砂轮磨削微电机转子轴。通过搭建平面磨削工艺平台,参考无心磨砂轮修整及其磨削加工参数,从磨削温度、工件表面粗糙度、表面微观形貌、磨削比等方面,对比分析微晶陶瓷刚玉砂轮与传统刚玉砂轮的磨削性能。结果表明:相对传统刚玉砂轮,微晶陶瓷刚玉砂轮不仅有效改善磨削温度(降低38.5%) ,提高工件表面加工质量(表面粗糙度降低78.6%) ,还具有较高的砂轮磨削比(提高2.2倍)。选用微晶陶瓷刚玉砂轮对微电机转子轴进行无心磨生产线验证,结果表明:微电机转子轴无心磨样件的各项检测结果均满足实际生产指标要求,且较传统刚玉砂轮延长了1.6倍的修整周期,在提高加工质量的同时,显著提高了生产效率。关键词 微电机转子轴;微晶陶瓷刚玉砂轮;磨削性能;生产效率 |
| Abstract_FL | In view of frequent dressing of grinding wheel in process of centerless cylindrical grinding of micromotor rotor shaft, this paper proposes to use microcrystalline ceramic corundum grinding wheel instead of traditional co-rundum grinding wheel to grind micromotor rotor shaft. By building a surface grinding process platform and referring to the dressing and grinding parameters of centerless grinding wheel, grinding performance of microcrystalline ceramic co-rundum grinding wheel and corundum grinding wheel was compared and analyzed in grinding temperature, surface pro-cessing quality, and grinding ratio. Compared with corundum grinding wheel, microcrystalline ceramic corundum grind-ing wheel can not only effectively improve the grinding temperature (reduce 38.5%), improve the surface processing quality (reduce the surface roughness by 78.6%), but also has a higher grinding ratio (increase 2.2 times). In addition, microcrystalline ceramic corundum grinding wheel was selected to verify centerless grinding production of micromotor rotor shaft. The test results of centerless grinding sample of micromotor rotor shaft meet requirements of actual produc-tion index, and dressing cycle is twice longer than that of traditional corundum grinding wheel, which improves pro-cessing quality and production efficiency significantly. |
| Author | 曲美娜 吴耀 张毕生 |
| AuthorAffiliation | 博世汽车部件(长沙)有限公司,长沙 410100%湖南大学机械与运载工程学院,长沙 410082;国家高效磨削工程技术研究中心,长沙 410082%燕山大学机械工程学院,河北秦皇岛 066004 |
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| Author_FL | QU Meina WU Yao ZHANG Bisheng |
| Author_FL_xml | – sequence: 1 fullname: ZHANG Bisheng – sequence: 2 fullname: WU Yao – sequence: 3 fullname: QU Meina |
| Author_xml | – sequence: 1 fullname: 张毕生 – sequence: 2 fullname: 吴耀 – sequence: 3 fullname: 曲美娜 |
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| DOI | 10.13394/j.cnki.jgszz.2021.5004 |
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| DocumentTitle_FL | Evaluation of grinding performance for micromotor rotor shaft by microcrystal-line ceramic corundum grinding wheel |
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| Keywords | micromotor rotor shaft microcrystalline ceramic corundum grinding wheel 微电机转子轴 生产效率 grinding performance pro-duction efficiency 微晶陶瓷刚玉砂轮 磨削性能 |
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| Title | 微晶陶瓷刚玉砂轮对微电机转子轴的磨削性能评价 |
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