Author:
Wang Nina,Zhang Guangpeng,Ren Lijuan,Li Yongchang,Yang Zhijian
Publisher
Springer Science and Business Media LLC
Subject
Industrial and Manufacturing Engineering,Computer Science Applications,Mechanical Engineering,Software,Control and Systems Engineering
Reference38 articles.
1. Jourani A, Dursapt M, Hamdi H, Rech J, Zahouani H (2005) Effect of the belt grinding on the surface texture: Modeling of the contact and abrasive wear. Wear 259(7–12):1137–1143
2. Lv YJ, Peng Z, Qu C, Zhu DH (2020) An adaptive trajectory planning algorithm for robotic belt grinding of blade leading and trailing edges based on material removal profile model. Robot. Comput.-Integr. Manuf. 6:101978.
3. Xiao GX, Huang Y (2017) Experimental research and modeling of life-cycle material removal in belt finishing for titanium alloy. J Manuf Process 30:255–267
4. Tian YB, Liu F, Wang Y, Wu H (2017) Development of portable power monitoring system and grinding analytical tool. J Manuf Process 27:188–197
5. Tian YB, Li LG, Fan S, Guo QJ, Cheng X (2020) A novel high-shear and low-pressure grinding method using specially developed abrasive tools. P I Mech Eng B-J Eng 235(1–2):095440542094910
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