[1]ROM M, BRAKHAGE K H, BARTH S, et al. Mathematical Modeling of Ceramic Bond Bridges in Grinding Wheels[J]. Mathematics & Computers in Simulation,2018,147:220-236.
[2]WALTER C, KOMISCHKE T, WEINGARTNER E, et al. Structuring of CBN Grinding Tools by Ultrashort Pulse Laser Ablation[J]. Procedia CIRP,2014,14:31-36.
[3]陈俊云, 靳田野, 鹿玲. CBN刀具材料的发展及其切削性能研究进展[J]. 制造技术与机床,2015,3(1):33-39.
CHEN Junyun, JIN Tianye, LU Ling. Development and Cutting Performence of CBN Tool[J]. Manufacturing Technology & Machine Tool,2015,3(1):33-39.
[4]DING Wenfeng, XU Jiuhua, CHEN Zhenzhen, et al. Effects of Heating Temperature on Interfacial Microstructure and Compressive Strength of Brazed CBN-AlN Composite Abrasive Grits[J]. Journal of Wuhan University of Technology(Mater. Sci. Ed.),2010,25(6):952-956.
[5]马伯江, 蔡啸, 于庆先. 金刚石表面的膜层沉积处理及其感应钎焊的研究[J]. 中国机械工程,2012,23(15):1868-1872.
MA Bojiang, CAI Xiao, YU Qingxian. Research on Treatment of Diamond Surface by Film Deposition and Induction Brazing[J]. China Mechanical Engineering,2012,23(15):1868-1872.
[6]李奇林, 徐九华, 苏宏华,等. 高速磨削用单层钎焊CBN砂轮及其磨削性能[J]. 工具技术,2016,50(10):15-18.
LI Qilin, XU Jiuhua, SU Honghua, et al. Development and Performance of Brazed CBN Wheel for High Speed Grinding[J]. Tool Engineering,2016,50(10):15-18.
[7]李奇林, 苏宏华, 徐九华,等. 超高频感应连续钎焊立方氮化硼磨粒的界面反应机理[J]. 中国有色金属学报,2015,25(6):1465-1470.
LI Qilin, SU Honghua, XU Jiuhua, et al. Interfacial Reaction Mechanism of CBN Grain Continuous Brazed by Ultra-high Frequency Induction[J].Chinese Journal of Nonferrous Metals,2015,25(6):1465-1470.
[8]DING W, LINKE B, ZHU Y, et al. Review on Monolayer CBN Superabrasive Wheels for Grinding Metallic Materials[J]. Chinese Journal of Aeronautics,2016,30(1):109-134.
[9]MIAB R J, HADIAN A M. Effect of Brazing Time on Microstructure and Mechanical Properties of Cubic Boron Nitride/Steel Joints[J]. Ceramics International,2014,40(6):8519-8524.
[10]刘兆博, 吕玉山, 王军,等. 叶序排布外圆砂轮磨削TC4的磨削力实验研究[J]. 现代制造工程,2017(2):105-108.
LIU Zhaobo, LYU Yushan, WANG Jun, et al. Experimental Investigation on the Grinding Force of the Engineered Grinding Wheel in Grinding TC4[J]. Mordern Manufacturing Engineering,2017(2):105-108.
[11]田霖, 傅玉灿, 杨路,等. 钛合金 Ti6Al4V 高速磨削试验研究[J]. 中国机械工程,2014,25(22):3056-3060.
TIAN Lin, FU Yucan, YANG Lu, et al. Experimental Studies for High Speed Grinding of Titanium Alloy Ti6Al4V[J]. China Mechanical Engineering,2014,25(22):3056-3060.
[12]杨长勇. 单层钎焊立方氮化硼砂轮缓进深切磨削钛合金的基础研究[D]. 南京:南京航空航天大学,2010.
YANG Changyong. Basic Research on Creep Feed Grinding of Titanium Alloy with Monolayer Brazed CBN Wheel[D]. Nanjing:Nanjing University of Aeronautics and Astronautics,2010.
[13]李峰, 苏宏华, 丁文锋,等. 电镀CBN砂轮高速磨削高温合金的砂轮磨损研究[J] 金刚石与磨料磨具工程,2011,31(6):29-32.
LI Feng, SU Honghua, DING Wenfeng, et al.Wear of Electroplated CBN Wheels in High Speed Grinding of Superalloy[J]. Diamond & Abrasives Engineering,2011,31(6):29-32.
[14]任敬心, 华定安. 磨削原理[M].北京:电子工业出版社,2011:116-118.
REN Jingxin, HUA Dingan. Principles of Grinding[M]. Beijing: Publishing House of Electronics Industry,2011:116-118.
[15]任敬心, 康仁科, 王西彬. 难加工材料磨削技术[M].北京:电子工业出版社,2011:59-60.
REN Jingxin, KANG Renke, WANG Xibin. Grinding Technology of Difficult-to-machine Materials[M]. Beijing: Publishing House of Electronics Industry,2011:59-60. |