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[2] Jianbo Dai, Honghua Su, Tengfei Yu, Hao Hu, WenboZhou, Wenfeng Ding. Experimental investigation on materials removal mechanismduring grinding silicon carbide ceramics with single diamond grain. PrecisionEngineering, 2017, 51: 271-279.
[3] Biao Zhao, Tianyu Yu, Wengfeng Ding, Xianying Li.Effects of pore structure and distribution on strength of porous Cu-Sn-Tialumina composites. Chinese Journal of Aeronautics, 2017, 30(6): 2004-2015.
[4] Wenfeng Ding, Haonan Li, Liangchi Zhang, Jiuhua Xu,Yucan Fu, Honghua Su. Diamond wheel dressing: a comprehensive review. Journalof Manufacturing Science and Engineering-Transactions of the ASME, 2017, 139:121006 (25 Pages)
[5] Ding Wenfeng*, Linke Barbara, Zhu Yejun, Li Zheng,Fu Yucan, Su Honghua, Xu Jiuhua. Review on monolayer CBN superabrasive wheelsfor grinding metallic materials. Chinese Journal of Aeronautics, 2017, 30(1):109-134
[6] Wenfeng Ding,* Liangchi Zhang, Zheng Li, Yejun Zhu,Honghua Su, Jiuhua Xu. Review on grinding-induced residual stresses in metallicmaterials. International Journal of Advanced Manufacturing Technology, 2017,88: 2939-2968
[7] Xinxin Xi, Wenfeng Ding, Zheng Li, Jiuhua Xu. Highspeed grinding of particulate reinforced titanium matrix composites using amonolayer brazed cubic boron nitride wheel. International Journal of AdvancedManufacturing Technology, 2017, 90: 1529-1538.
[8] Qing Miao, Wenfeng Ding, Dengkui Fu, Zhenzhen Chen,Yucan Fu. Influence of graphite addition on bonding properties of abrasivelayer of metal-bonded CBN wheel. International Journal of AdvancedManufacturing Technology, 2017, 93: 2675-2684.
[9] Yejun Zhu, Wenfeng Ding, Tianyu Yu, Jiuhua Xu,Yucan Fu, Honghua Su. Investigation on stress distribution and wear behavior ofbrazed polycrystalline cubic boron nitride superabrasive grains: numericalsimulation and experimental study. Wear, 2017, 376-377: 1234-1244.
[10] Yejun Zhu, Wenfeng Ding, Zeyu Zhao, Yucan Fu,Honghua Su. Compressive strength and interface microstructure of PCBN grainsbrazed with high-frequency induction heating method. Acta MetallurgicaSinica-English letters, 2017, 30: 641-649.
[11] Yejun Zhu, Wenfeng Ding, Xin Huang, Honghua Su,Guoqin Huang. Understanding the residual stress distribution in brazedpolycrystalline CBN abrasive grains. International Journal of AdvancedManufacturing Technology, 2017, 88: 97-106.
[12] Zheng Li, Wenfeng Ding, Chaojie Liu, Honghua Su.Prediction of grinding temperature of PTMCs based on the varied coefficients offriction in conventional-speed and high-speed surface grinding. InternationalJournal of Advanced Manufacturing Technology, 2017, 90: 2335-2344.
[13] Zheng Li, Wenfeng Ding, Chaojie Liu, Honghua Su.Grinding performance and surface integrity of particulate-reinforced titaniummatrix composites in creep-feed grinding. International Journal of AdvancedManufacturing Technology, 2017, 2: 1-12.
[14] Zheng Li, Wenfeng Ding, Changyu Ma, Yucan Fu.Grinding temperature and tool wear of porous metal-bonded CBN superabrasivewheels in high-efficiency deep grinding. Proceedings of the Institution ofMechanical Engineers Part B: Journal of Engineering Manufacture, 2017, 231(11):1961-1971.
[15] Shaowu Gao, Changyong Yang, Jiuhua Xu, Yucan Fu,Honghua Su, Wenfeng Ding. Optimization for internal traverse grinding of valvesbased on wheel deflection. The International Journal of Advanced ManufacturingTechnology, 2017, 92(1-4): 1105-1112.
[16] Jiajia Chen, Yucan Fu, Zhibin Gu, Houfa Shen,Qingshan He. Study on heat transfer of a rotating heat pipe cooling system indry abrasive-milling. Applied Thermal Engineering, 2017, 115: 736-743.
[17] Jiajia Chen, Yucan Fu, Qilin Li, Junjie Gao,Qingshan He. Investigation on induction brazing of revolving heat pipe grindingwheel. Materials and Design, 2017, 116: 21-30.
[18] Linjiang He, Honghua Su, Jiuhua Xu, Liang Zhang.Experiment on machinability of Ti2AlNb intermetallic alloy. Transactions ofNanjing University of Aeronautics & Astronautics, 2017, 34(5): 487-495.
[19] Zhen Yin, Yucan Fu, Hua Li, Ziyang Cao, YurongChen. Mathematical modeling and experimental verification of a novel single-actuatedultrasonic elliptical vibrator. Advances in Mechanical Engineering, 2017,9(12): 1-12.
[20] Zhen Yin, Yucan Fu, JiuHua Xu, Hua Li, Ziyang Cao,Yurong Chen. A novel single driven ultrasonic elliptical vibration cuttingdevice, International Journal of Advanced Manufacturing Technology, 2017, 90:3289-3300.
[21] Chenwei Dai, Wenfeng Ding, Jiuhua Xu, Yucan Fu,Tianyu Yu. Influence of grain wear on material removal behavior during grindingnickel-based superalloy with single diamond grain. International Journal ofMachine Tools & Manufacture, 2017, 113: 49-58.
[22] Wenfeng Ding, Chenwei Dai, Tianyu Yu, Jiuhua Xu,Yucan Fu. Grinding performance of textured monolayer CBN wheels: undeformedchip thickness nonuniformity modeling and ground surface topography prediction.International Journal of Machine Tools & Manufacture, 2017, 122: 66-80.
[23] Chenwei Dai, Wenfeng Ding, Jiuhua Xu, Xipeng Xu,Dengkui Fu. Effects of undeformed chip thickness on grinding temperature andburn-out in high-efficiency deep grinding of Inconel 718 superalloys.International Journal of Advanced Manufacturing Technology, 2017, 89:1841-1852.
[24] Chenwei Dai, Wenfeng Ding, Jiuhua Xu, Chen Ding,Guoqing Huang. Investigation on size effect of grain wear behavior duringgrinding nickel-based superalloy Inconel 718. International Journal of AdvancedManufacturing Technology, 2017, 91: 2907-2917.
[25] Zhengcai Zhao, Yucan Fu, Xuan Liu, Jiuhua Xu, JunWang, Shujie Mao. Measurement-based geometric reconstruction for millingturbine blade using free-form deformation. Measurement, 2017, 101: 19-27.
[26] Haixiang Huan, Jiuhua Xu, Honghua Su, Yingfei Ge,Xinghui Liang. Milling machinability of TiC particle and TiB whisker hybridreinforced titanium matrix composites. Transactions of Nanjing University ofAeronautics & Astronautics, 2017, 34 (4): 363-371.
[27] Chaojie Liu , Wengfeng Ding, Zheng Li, ChangyongYang. Prediction of high-speed grinding temperature of titanium matrixcomposites using BP neural network based on PSO algorithm. InternationalJournal of Advanced Manufacturing Technology, 2017, 89: 2277-2285.
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[29] Xin Huang, Wenfeng Ding, Yejun Zhu, Changyong Yang.Crack propagation simulation of polycrystalline cubic boron nitride abrasivematerials based on cohesive element method. Computational Materials Science,2017, 138: 302-314.
[30] Dengkui Fu, Wenfeng Ding, Shubao Yang, Qing Miao, YucanFu. Formation mechanism and geometry characteristics of exit-direction burrsgenerated in surface grinding of Ti-6Al-4V titanium alloy. InternationalJournal of Advanced Manufacturing Technology, 2017, 89: 2299-2313.
[31] Dengkui Fu, Wenfeng Ding, Qing Miao, Jiuhua Xu.Simulation research on the grinding forces and stresses distribution insingle-grain surface grinding of Ti-6Al-4V alloy when considering the actualcutting-depth variation. International Journal of Advanced ManufacturingTechnology, 2017, 91: 3591-3602.
[32] Jingwei Wang, Wenfeng Ding, Yejun Zhu, Wei Xu,Changyong Yang. Fracture mechanism of polycrystalline cubic boron nitrideabrasive grains during single-grain grinding of Ti-6Al-4V titanium alloy.International Journal of Advanced Manufacturing Technology, 2017, 94: 281-291.
[33] Quanli Zhang, Yucan Fu, Honghua Su, Qingliang Zhao,Suet To, Surface damage mechanism of monocrystalline silicon during singlepoint diamond grinding, Wear 396-397 (2018) 48-55.
[34] Quanli Zhang, Qingliang Zhao, Suet To, Zhimin Rao,Precision machining of ‘water-drop’ surface by single point diamond grinding,Precision Engineering 51 (2018) 190-197.
[35] Quanli Zhang, Qingliang Zhao, Honghua Su, Suet To,A systematic investigation on the diamond wear mechanism during the dryscratching of WC/Co, International Journal of Refractory Metals and HardMaterials 70 (2018) 184-190.
[36] 江志伟, 赵正彩, 傅玉灿, 徐九华, 李志强, 丁悦. 钛合金宽弦空心风扇叶片进排气边加工变形预测. 航空制造技术, 2017,538(19): 86-91.
[37] 晏超仁, 陈燕, 郑凯, 梁宇红. 钎焊金刚石铣磨刀具磨粒粒度尺寸与排布间距对CFRP磨削质量的影响. 金刚石与磨料磨具工程, 2017, 37(4): 6-10+21.
[38] 杨浩骏, 陈燕, 徐九华, 张永升. Ti/Al 叠层结构低频振动制孔试验研究. 航空制造技术, 2017,521(1/2): 16-21.
[39] 杨浩骏, 陈燕, 徐九华, 傅玉灿, 徐陈林, 张永升. 预压紧力对叠层结构制孔层间间隙的影响. 哈尔滨工业大学学报, 2017,11: 1-8.
[40] 高绍武, 杨长勇, 徐九华, 傅玉灿, 周晓卫, 闫文, 左朋. 镍基高温合金珩磨表面粗糙度研究. 中国机械工程, 2017(2): 223-227.
[41] 傅玉灿, 陈佳佳, 赫青山, 马可, 徐鸿钧, 朱延斌, 沈厚法, 顾志斌. 基于热管技术的磨削弧区强化换热研究. 机械工程学报, 2017,53: 189-199.
[42] 殷振, 傅玉灿, 李华, 曹自洋, 陈玉荣. 基于有限元的单激励超声椭圆振动切削装置研究, 制造技术与机床, 2017,(6): 166-171.
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