中国陶瓷

参考文献

[1]Guo C,Shi Z,Attia H,et al.Power and wheel wear for grinding nickel alloy with plated CBN wheels[J].Cirp Ann-Manuf Technol.2007,56(1):343-346.

[2]Mckie A,Winzer J,Sigalas I,et al.Mechanical properties of CBN-Al composite materials[J].Ceram.Int.2011,37(1):1-8.

[3]Lin K H,Peng S F,Lin S T.Sintering parameters and wear performances of vitrified bond diamond grinding wheels[J].Int.J.Refract.Met.Hard Mater.2007,25(1):25-31.

[4]Jackson M J.Sintering and vitrification heat treatment of CBN grinding wheels[J].J.Mater.Process.Technol.2007,191 (1-3SI):232-234.

[5]Jackson M J,Davis C J,Hitchiner M P,et al.Highspeed grinding with CBN grinding wheels-applications and future technology[J].J.Mater.Process.Technol.2001,110(1):78-88.

[6]Li C H,Liu Z R,Cui Y,et al.Performances Evaluation of Vitrified Bonded CBN Wheel under Different Grinding Fluid[J].Measur.Technol Mech.Autom.2010:887-890.

[7]Li X L,Yang Y W,You T Y,et al.Development and research of simulation system of vitrified bond CBN grinding wheel based on virtual reality technology[J].Manage Serv.Sci.2009:4-8.

[8]Wang Y H,Zang J B,Zhang X H,et al.Interface bonding between Ti-coated CBN and vitrified bond[J].Key Eng.Master.2004:259-260.

[9]Li Z H,Zhu Y M,Wu X W,et al.Investigation on the preparation of vitrified bond CBN grinding tools[J].Key Engineering Masterials.2004:259-260.

[10]Zhang A J,Li Z H,Li Z C,et al.Raw materials selection applied to glass bonding for vitrified CBN grinding wheels[J].J.Mater.Sci.2008,43(12):4303-4308.

[11]吴茂,沈卓身.微晶玻璃的特性、种类及其应用[J].中国陶瓷.2006,42(6):8-11.

[12]张红霞,张小福,卢安贤.微晶玻璃在立方氮化硼砂轮结合剂中的应用研究[J].新技术新工艺.2006(05):56-58.

[13]王春华,杨晓军.低温微晶玻璃结合剂结构和性能的研究[J].金刚石与磨料磨具工程.2011(02):58-61.

[14]余舜.CBN砂轮用微晶玻璃结合剂的研究[D].湖南大学,2004.

[15]Herman D.New generation of CBN grinding wheels bonded with glassceramic[J].Adv.Sci.Technol.2006,45:1515-1519.

[16]Herman D,Krzos J.Influence of vitrified bond structure on radial wear of CBN grinding wheels[J].J.Mater.Process.Technol.2009,209(14):5377-5386.

[17]Kim H J,Ryu S S,Kim S,et al.Mechanical properties of new vitrified bonds for CBN grinding wheel[J].IntJ.Precision.Eng.Manuf.2009,10(3):13-17.

[18]万隆,翟浩冲,胡伟达,等.ZnO/Na2O(mol)对CBN陶瓷砂轮性能的影响[J].湖南大学学报(自然科学版).2011(09):64-69.

[19]翟浩冲,万隆,胡伟达,等.Li2O和ZnO的相对含量对陶瓷结合剂及磨具性能的影响[J].材料导报.2011(12):116-118.

[20]翟浩冲,万隆,等.MgO与Li2O摩尔比及烧结温度对结合剂及CBN磨具性能的影响[J].复合材料学报.2013(1):119-124.

[21]Shan D D,Li Z H,Zhu Y M,et al.Influence of TiO2 on the physical properties of low-temperature ceramic vitrified bond and mechanical properties of CBN composites[J].Ceram.Int.2012,38(6):4573-4578.

[22]杨晓军.CBN磨具用微晶玻璃结合剂的制备与研究[D].河南工业大学,2011.

[23]Zhao B H,Li Z H,Zhu Y M.Effect of polycrystalline mullite fibers on the properties of vitrified bond and vitrified CBN composites[J].Ceram.Int.2013,9(3):2863-2868.

[24]侯永改,祝聿霏,张明岩,等.氧化钇对高速CBN砂轮用陶瓷结合剂玻璃料性能的影响[J].中国稀土学报.2012(03):330-336.

[25]赵志伟,王春华,关春龙,等.纳米氧化物对CBN磨具陶瓷结合剂性能的影响[J].金刚石与磨料磨具工程.2009(06):59-61.

[26]Zheng H J,Zhao Z W,Xia S L,et al.Effects of nanoCr2O3 doping on properties and microstructures of vitrified bond CBN grinding tools[J].Appl.Mech.Mater.2012:130-134.

[27]Zhang J Q,Pang Z R,Yu T B,et al.Experiment study based on nano-ceramic grinding wheel bond[J].Adv.Mater.Res.2011:250-254.

[28]Shang Y,Hou Y G,Qiao G Y,et al.Effects of nano-AlN on phase transformation of low temperature vitrified bond during sintering process[J].Trans.Nonferrous Met Soc.China.2009,19:S706-S710.

[29]Hou Y G,Qiao G Y,Shang Y,et al.Effects of nanoAlN and sintering atmosphere on microstructure and properties of vitrified bond[J].Compos:Part B.2011,42(4):756-762.