Research on Laser Close-Piercing Lapping Processing for Damage-Free Cutting of Thick Al2O3 Ceramics

Ji Lingfei; Yan Yinzhou; Bao Yong; Chen Xiaochuan; Jiang Yijian

doi:10.3788/cjl201138.0603002

[1] Sheng Xiaomin. High speed and deep grinding of engineering ceramics［J］. World Manufacturing Engineering & Market, 2009, 5: 57～63

[2] Guo Dong, Shao Tianmin, Li Longtu et al.. Investigation of the drilling conditions of piezoelectric ceramics by pulsed NdYAG laser［J］. Piezoelectrics & Acoustooptics, 2002, 24(2): 104～138

[3] N. N. Nedialkov, M. Sawczak, M. Jadrague et al.. Effect of laser drilling on surface and material properties of AlN ceramics［C］. SPIE, 2005, 5958: 361～367

[4] Atsuki Yammoto, Hiroyuki Hayashikawa, Hitoshi Hongu. Experimental study on ceramics processing by using high power CO2 laser beam［C］. SPIE, 2003, 4830: 424～428

[5] Ma Nangang, Wang Xijun, Ding Huadong et al.. Laser cutting processing and mechanism for thick boron plate［J］. Chinese J. Laser, 2007, 34(10): 1441～1445

[6] I. Black, K. L. Chua. Laser cutting of thick ceramic tile［J］. Opt. Laser Technol., 1997, 29(4): 193～205

[7] Zhang Shan, Kang Shaoying. Experimental studies of laser processing of constructural ceramics［J］. Chinese J. Lasers, 1995, A22(10): 797～800

[8] Zhu Bo, Qi Litao, Wang Yang. The experimental study of water-assisted laser machining［J］. Modern Manufacturing Engineering, 2003, 12: 73～74

[9] Hong Lei, Li Lijun. A study of laser cutting engineering ceramics［J］. Opt. Laser Technol., 1999, 31(8): 531～538

[10] Xie Xiaozhu, Li Lijun, Fang Shiyin et al.. Cutting of nonmetallic plates by medium and low power level CO2 lasers［J］. Journal of Optoelectronics·Laser, 2005, 16(2): 236～239

[11] R. Akarapu, A. E. Segall. Numerical simulations of an active-stressing technique for delaying fracture during cutting of alumina［J］. J. Manuf. Sci. Engng., 2006, 128(1-4): 921～927

[12] C. Dutto, E. Fogarassy, D. Mathiot. Numerical and experimental analysis of pulsed excimer laser processing of silicon carbide［J］. Appl. Surf. Sci., 2001, 184(1-4): 362～366

[13] J. F. Li, L. Li, F. H. Stott. A three-dimensional numerical model for a convection-diffusion phase change process during laser melting of ceramic materials［J］. Internat J. Heat Mass Tran., 2004, 47(25): 5523～5539

[14] A. Kotousov, J. W. H. Price. Stress intensity factor for semi-infinite crack formed by moving thermal source［J］. Internat J. Fracture, 1998, 90(3): 39～42

[15] Liu Jian, Lu Jian, Ni Xiaowu et al.. Thermal stress cleaving of Al2O3 ceramic plate by pulsed laser［J］. Chinese J. Laser, 2010, 37(5): 1398～1403

[16] Zhang Mingfeng, Zhang Shengxiong, Zheng Shaojia et al.. Investigation of optimized cutting conditions of Al2O3 ceramic plate by pulsed CO2 laser［J］. Chinese J. Laser, 2000, A27(11): 1045～1049

[17] V. Pereles-Santiago, M. Washington, P. Brugn et al.. Faster and damage-reduced laser cutting of thick ceramics using a simultaneous prescore approach［J］. J. Laser Appl., 2005, 17(4): 219～224

[18] P. Brugan, G. Cai, A. E. Segall. Controlled-fracture of prescored alumina ceramics using simultaneous CO2 lasers［J］. J. Laser Appl., 2006, 18(3): 236～241

[19] J. Lawrence, A. A. Peligrad, E. Zhou et al.. Prediction of melt depth in selected architectural materials during high-power diode laser treatment［J］. Opt. Lasers Engng., 2001, 35(1): 51～62

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