Investigation on abrasive wear of electroplated diamond belt in grinding nickel-based superalloys

[1]  Guijian Xiao,et al.  Material removal behavior of Cf/SiC ceramic matrix composites as a function of abrasive wear during diamond abrasive belt grinding , 2021, Wear.

[2]  Yun Huang,et al.  Investigation on abrasive wear mechanism of single diamond grain in flexible scribing titanium alloy , 2021, Diamond and Related Materials.

[3]  He Zhe,et al.  Investigation of conditions leading to critical transitions between abrasive belt wear modes for rail grinding , 2021 .

[4]  N. S. Pinargote,et al.  Ceramic Cutting Materials and Tools Suitable for Machining High-Temperature Nickel-Based Alloys: A Review , 2021, Metals.

[5]  S. Palanisamy,et al.  The Performance of Polycrystalline Diamond (PCD) Tools Machined by Abrasive Grinding and Electrical Discharge Grinding (EDG) in High-Speed Turning , 2021, Journal of Manufacturing and Materials Processing.

[6]  H. Ding,et al.  Prediction and analysis of material removal characteristics for robotic belt grinding based on single spherical abrasive grain model , 2021 .

[7]  Zizhao Shan,et al.  Study on ultra-high speed nano-grinding of monocrystalline copper with V-shaped diamond abrasive grains based on molecular dynamics method , 2021 .

[8]  Dawid Zieliński,et al.  Wear of electroplated diamond tools in lap-grinding of Al2O3 ceramic materials , 2020 .

[9]  Xiaohu Xu,et al.  Robotic grinding of complex components: A step towards efficient and intelligent machining - challenges, solutions, and applications , 2020, Robotics Comput. Integr. Manuf..

[10]  S. Paul,et al.  The wear mechanisms of diamond grits in grinding of alumina and yttria-stabilized zirconia under different cooling-lubrication schemes , 2020 .

[11]  B. Sun,et al.  Performance and wear of brazing diamond grinding disc in machining gray cast iron , 2020 .

[12]  Zhen Yin,et al.  Single diamond grain cutting-edges morphology effect on grinding mechanism of Inconel 718 , 2019, Precision Engineering.

[13]  Jianyong Li,et al.  Investigation on wear modes and mechanisms of abrasive belts in grinding of U71Mn steel , 2018, The International Journal of Advanced Manufacturing Technology.

[14]  Tianyu Yu,et al.  Wear evolution and stress distribution of single CBN superabrasive grain in high-speed grinding , 2018, Precision Engineering.

[15]  Yun Huang,et al.  Essential causes for tool wear of single crystal diamond in ultra-precision cutting of ferrous metals , 2018, Diamond and Related Materials.

[16]  J. Rech,et al.  Investigating effects of adhesion wear on cutting efficiency and energy cost in dry belt finishing , 2018 .

[17]  S. To,et al.  Diamond wheel wear mechanism and its impact on the surface generation in parallel diamond grinding of RB-SiC/Si , 2017 .

[18]  S. Mezghani,et al.  Wear study of structured coated belts in advanced abrasive belt finishing , 2015 .

[19]  Wenfeng Ding,et al.  The influence of speed on material removal mechanism in high speed grinding with single grit , 2015 .

[20]  Fritz Klocke,et al.  Abrasive machining of advanced aerospace alloys and composites , 2015 .

[21]  Jiu-hua Xu,et al.  Grain wear of brazed polycrystalline CBN abrasive tools during constant-force grinding Ti–6Al–4V alloy , 2011 .

[22]  M. El Mansori,et al.  Wear mechanism maps for the belt finishing of steel and cast iron , 2009 .

[23]  S. Mezghani,et al.  Abrasiveness properties assessment of coated abrasives for precision belt grinding , 2008 .

[24]  Masahiro Higuchi,et al.  Thermo-Chemical Wear Mechanism of Diamond Tool in Machining of Ferrous Metals , 2004 .

[25]  S. B. McSpadden,et al.  Wear mechanisms of diamond abrasives during transition and steady stages in creep-feed grinding of structural ceramics , 2000 .