主持:
1、“面向钛合金的硬质合金带锯切削和磨损机理及齿型设计关键技术研究”,湖南省自然科学基金项目,(2013.01-2015.12)。
2、“硬脆材料微小零件化学机械微细磨削机理及关键技术研究”,国家自然科学基金面上项目,批准号:51675170,(2017.01-2020.12)。
3、“基于球形微磨具的微小曲面零件光热化协同微细磨削复合加工研究” 国家自然科学基金面上项目,批准号:52075161,(2021.01-2024.12)。
参研:
1、特种材料(纳米结构材料)精密磨削及其预报,国家863计划资助项目。(2001.12-2003.12);
2、纳米结构材料磨削机理及相关技术的研究,国家自然科学基金项目。(2003.1-2005.12);
3、高硬难加工金属材料磨削过程中白层的形成机理与抑制对策的研究,国家自然科学基金项目。(2005.01-2007.12);
4、超细晶粒整体硬质合金涂层刀具的研究与开发, 国家科技部重大专项子课题,(2009ZX04012-031)
5、超大型高精度液压油缸关键部件制造技术研究及产业化,广东省科技厅产学研项目,(2013.01-2014.13)。
6、纳米结构硬质合金高速磨削表面完整性影响机理及其优化研究,湖南省自然科学基金项目,(2012.01-2014.12);
7、退役产品智能拆解生产线关键技术及管控系统,课题2:不确定条件下高效 柔性拆解线的物流仿真分析和优化技术,国家重点研发计划(网络协同制造和智能工厂)(2020YFB1713002,2020.10-2023.10)
横向项目:
1、双金属带锯条齿形的研究与开发,企业项目;
2、方圆冶金设备有限公司精益生产管理提升,企业项目;
3、方圆公司6S现场导入与管理提升 ,企业项目;
4、供水管网压力管理一体化设备通用控制系统开发,企业项目;
5、高空作业平台结构力学分析,企业项目;
6、压气机静子叶片磨削、检测技术研究,企业项目;
[1] 邓朝晖,张璧,周志雄,任莹晖,刘建. 陶瓷磨削的表面/亚表面损伤. 湖南大学学报,2002,29(5):61-71
[2] Ren Yinghui, Zhou Zhixiong, Deng Zhaohui. Microgrinding of Nanostructured Carbide Coatings: Ground Surface and Subsurface Damage Observations. Key Engineering Materials, Advances in Grinding and Abrasive Technology XIII, 2006, 304-305: 276-280
[3] Ren Yinghui, Zhang Bi, Zhou Zhixiong. Grinding Force Prediction for Tungsten Carbides Various Grain Size. Nanotechnology and Precision Engineering,2008, 6(6):415-423
[4] 周志雄,毛聪,周德旺,任莹晖.平面磨削温度及其对表面质量影响的实验研究.中国机械工程,2008, 19(4): 980-984.
[5] Ren Yinghui,Zhang Bi,Zhou Zhixiong, Specific Energy in Grinding of Tungsten Carbides Various Grain Sizes, Annals of the CIRP, 58(1): 299-302, 2009.
[6] 任莹晖, 张璧, 周志雄, 纳米结构WC-Co精密磨削表面完整性研究, 中国机械工程, 2009,20(8): 896-901.
[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,机械工程学报,2010,46(17): 105-113.
[8] Mao Cong , Zhou Zhixiong, Ren Yinghui, Zhang Bi, Analysis and FEM simulation of temperature field in wet surface grinding. Materials and Manufacturing Processes, Vol.25, No.6, 399-406, 2010.
[9] 李伟,周志雄,宋铁军,任莹晖,肖航,微机床主轴用微涡轮设计及其气动性能研究, 湖南大学学报,2012,39(8):34-38.
[10] Huang Xiangmin, Zhou Zhixiong, Ren Yinghui. Experimental research material characteristics effect on white layers formation in grinding of hardened steel. The International Journal of Advanced Manufacturing Technology.2013, 66(9): 1555–1561.
[11] Mao Cong*, Ren Yinghui, Gan Hangyu, Zhang Mingjun, Zhang Jian, Tang Kun, Microstructure and mechanical properties of cBN-WC-Co composites used for cutting tools, International Journal of Advanced Manufacturing technology, 2014,76(9-12): 2043-2049.
[12] Huang xiangming*, Ren Yinghui, Zhou Zhixiong, Xiao Hang, Experimental study on white layers in high-speed grinding of AlSi52100 hardened steel, Journal of Mechanical Science and technology, 29(3):1257-1263, 2015.
[13] 任莹晖*,纪会敏,杜勇,周志雄,黄向明.切削刀具综合管理系统的数据采集和存储设计研究.计算机应用研究. 2016,33(10):3031-3035.
[14] Luo Yuanqiang, Ren Yinghui*, Zhou Zhixiong, Huang Xiangming, Song Tiejun, Prediction of single-tooth sawing force based on tooth profile parameters, International Journal of Advanced Manufacturing technology, 2016,86(1-4):641-650.
[15] Huang Xiangming, Ren Yinghui, Zheng Bo, Deng Zhaohui, Zhou Zhixiong, Experiment research on grind-hardening of AISI5140 steel based on thermal compensation[J]. Journal of Mechanical Science and Technology, 2016, 30(8):3819-3827.
[16] 李伟,周志雄,尹韶辉,任莹晖.微细磨削技术及微磨床设备研究现状分析与探讨. 机械工程学报,2016,52(17):10-19.
[17] 任莹晖,罗源嫱,欧阳武,周志雄,宋铁军. 带锯锯切力数值仿真及工艺实验研究.工具技术,2017,51(6):15-19.
[18] 任莹晖,谢桂枝,纪会敏,左小陈,陈康.平头铣刀关键工序磨削参数的优化. 工具技术,2017,51(2):56-59.
[19] 宿彪,黄向明,任莹晖,王伏林,肖和,郑波.基于蚁群算法的工程机械再制造优化选配方法研究.机械工程学报,2017,53(5):60-68.
[20] 黄向明, 蒋为, 任莹晖, 郑波.MQL参数对40Cr磨削强化层表面质量影响的试验研究[J]. 热加工工艺,2017,46(20):165-169.
[21] 黄向明, 李通, 任莹晖, 吴为, 何志坚.基于分段变磨削力的磨削强化层仿真[J]. 中国机械工程, 2017(21):56-60.
[22] Huang Xiangming, Ren Yinghui, Jiang Wei, He Zhijian, Deng Zhaohui, Investigation on grind-hardening annealed AISI5140 steel with minimal quantity lubrication[J]. The International Journal of Advanced Manufacturing Technology, 2017, 89(1-4):1069-1077.
[23] 黄向明, 吴为, 任莹晖, 李通.预加热磨削强化均匀性试验研究[J]. 湖南大学学报:自然科学版,2018,45(10):24-29.
[24] 任莹晖, 黄向明, 马忠凯, 周志雄.基于信息熵的物料配送时间节点预测方法[J]. 中国机械工程, 2018, 29(22):2725-2732.
[25] 杨军, 李志鹏, 李伟, 任莹晖, 周志雄.基于不同单颗磨粒模型的微细磨削力研究[J]. 湖南大学学报:自然科学版, 2018(8):54-62.
[26] Huang Xiangming, Ren Yinghui, Li Tong, Zhou Zhixiong, Zhang Gaofeng, Influence of minimum quantity lubrication parameters on grind-hardening process[J]. Materials and Manufacturing Processes, 2018,33(1):69-76.
[27] Li Wei, Li Zhipeng, Ren Yinghui, Huang Xiangming, Error analysis of high-speed precision micro-spindle equipped with micro-tool in mechanical micro-grinding[J]. The International Journal of Advanced Manufacturing Technology, 2018, 97(1-4):599-609.
[28] Xiao Hang, Li Wei, Zhou Zhixiong, Huang Xiangming, Ren Yinghui, Performance analysis of aerostatic journal micro-bearing and its application to high-speed precision micro-spindles[J]. Tribology International, 2018(120):476-490.
[29] Huang Xiangming, Ren Yinghui*, Wu Wei, Li Tong, Research on grind-hardening layer and residual stresses based on variable grinding forces[J]. The International Journal of Advanced Manufacturing Technology, 2019, 103(1-4):1045-1055.
[30] Li Wei, Liu Mingjia, Ren Yinghui, Chen Qidi, A high-speed precision micro-spindle use for mechanical micro-machining[J]. The International Journal of Advanced Manufacturing Technology, 2019, 102(9-12):3197-3211.
[31] Ren Yinghui*, Li Chenfang, Li Wei, Li Maojun, Liu Hui, Study on micro-grinding quality in micro-grinding tool for single crystal silicon[J]. Journal of Manufacturing Processes, 2019(42):246-256.
[32] Li Wei , Ren Yinghui*, Li Chenfang, Li Zhipeng, Li Maojun, Investigation of machining and wear performance of various diamond micro-grinding tools. The International Journal of Advanced Manufacturing Technology, 2020, 106 (3-4):921-935.
[33] Yinghui Ren*, Kexin Li, Wei Li, Xu Han, and Xiaoman Liu, Research on a UV-assisted chemical modification strategy for monocrystalline silicon. Mechanical Sciences, 2021, 12, 133–141.
专利:
1、 一种化学机械-机械化学协同微细磨削加工方法与复合磨粒型微小磨具,发明专利,专利号:ZL 2017 1 1050786.8 专利申请日期:2017.10.31,授权公告日期:2020.07.28,发明人:李伟;任莹晖;周志雄