Research on Ceramic-Glass′s Brittle-Ductile Transition Based on Nano-Indentation Fatigue Experiment

Wang Jinghe; Li Shunzeng; Song Xiaoli; Song Wei; Wang Hongxiang; Li Shuping

doi:10.3788/aos201333.0922004

[1] Yang Li. Advanced Optical Manufacture Technology [M]. Beijing: Science Press, 2001. 123-156.

[2] Wei Zhang, Jianqiang Zhu. Controlling subsurface damage in neodymium-doped phosphate glass [J]. Optik-International Journal for Light and Electron Optics, 2009, 120(15): 752-757.

[3] Mingjun Chen, Qingliang Zhao, Shen Dong, et al.. The critical conditions of brittle-ductile transition and the factors influencing the surface quality of brittle materials in ultra-precision grinding [J]. Materials Processing Technology, 2005, 168(1): 75-82.

[4] J Shen, S H Liu, K Yi, et al.. Subsurface damage in optical substrates [J]. Optik, 2005, 116(6): 288-294.

[5] M Skrzypczak, C Guerret-Piecourt, S Bec, et al.. Use of a nanoindentation fatigue test to characterize the ductile-brittle transition [J]. Journal of the European Ceramic Society 2009, 29(6): 1021-1028.

[6] Wang Jinghe, Chen Mingjun, Dong Shen. Study on the mechanism of brittle-ductile transition for turning KDP crystal with single point diamond [J]. Opto-Electronic Engineering, 2005, 32(7): 67-70.

[7] Luca Esposito, Domenico Gentile, Nicola Bonora. Investigation on the Weibull parameters identification for local approach application in the ductile to brittle transition regime [J]. Engineering Fracture Mechanics, 2007, 74(4): 549-562.

[8] Min He, Fuguo Li, Jun Cai. An indentation technique for estimating the energy density as fracture toughness with Berkovich indenter for ductile bulk materials [J]. Theoretical Applied Fracture Mechanics, 2011, 56(2): 104-111.

[9] M Skrzypczak, C Guerret-Piecourt, S Bec, et al.. Use of a nanoindentation fatigue test to characterize the ductile-brittle transition [J]. Journal of the European Ceramic Society, 2009, 29(6): 1021-1028.

[10] Yoon-Suk Chang, Jong-Min Kim, Han-Ok Ko. Experimental and numerical investigations on brittle failure probability and ductile resistance property [J]. International Journal of Pressure Vessels and Piping, 2008, 85(9): 647-654.

[11] G R Anstis, P Chanticul, B R Lawn, et al.. A Critical evaluation of indentation techniques for measuring facture toughness [J]. Am Ceram Soc, 1981, 64(9): 533-543.

[12] Fang Tong, Lambropoulos, John C. Microhardness and indentation fracture of potassium dihydrogen phosphate(KDP) [J]. Am Ceram Soc, 2002, 85(1): 174-178.

[13] Robert Moskovic. Modelling of fracture toughness data in the ductile to brittle transition temperature region by statistical analysis [J]. Engineering Fracture Mechanics, 2002, 69(4): 511-530.

[14] W Wohler. A history of fatigue [J]. Engineering Fracture Mechanics, 1996, 54(2): 2-3.

[15] T G Bifano, T A Dow, R O Scattergood. Ductile-regime grinding: a new technology for machining brittle materials [J]. ASME Journal of Engineering for Industry,1991, 113(2): 184-189.