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对称楔形压头作用下玻璃裂纹的产生及扩展规律 被引量:1

Initiation and Propagation Laws of the Glass Cracks in Specimens Subject to Normal Loading by Under the Action of Symmetric Wedges
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摘要 玻璃在各个尖端科技中的应用越来越广泛 ,对其加工精度的要求也愈来愈高 ,玻璃切削因能高效、低成本获得各种形状的精密玻璃零件而日益受到重视 .为了获得高精度的加工表面 ,便于刀具设计和切削参数选择 ,本文中研究了玻璃在对称楔形压头作用下的裂纹产生和扩展规律 .研究结果表明 ,采用楔角在 30°~ 12 0°之间的对称楔印压玻璃时 ,玻璃裂纹的产生和扩展规律是相同的 ;采用楔角等于或大于 15 0°的对称楔印压玻璃时 ,裂纹的产生及扩展规律具有特殊性 .文中还研究了采用楔角在 30°~ 12 0°之间的对称楔印压玻璃时 ,中位裂纹长度与载荷的关系 . With more and more applications of glass in advanc ed science fields,the demand for glass machining precision increases greatly.More and more attention is paid to glass cutting because of high efficiency,low cost and precise glass parts with various shapes.In order to improve the machining precision of the part surfaces and to facilitate the tool design and cutting parameter selection,the initiation and propagation laws of glass cracks in specimens subject to normal loading by symmetric wedges were investigated.The research results show that the initiation and propagation laws are the same with the interior symmetric wedge angles of 30°~120°,while the laws are different with the i nterior symmetric wedge angles equal to or more than 150°.The relationship between the medial crack length and the normal loading was also investigated when specimens are indented by symmetrical wedges with the interior angles of 30°~120 °.
出处 《华南理工大学学报(自然科学版)》 EI CAS CSCD 北大核心 2004年第7期65-69,共5页 Journal of South China University of Technology(Natural Science Edition)
关键词 玻璃切削 对称楔形压头 印压 玻璃裂纹 glass cutting symmetric wedges indentation glass crack
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  • 1.国家863计划15年主要成果汇编-新材料领域分册.http://www.863.org.cn/863_95/materials/mat04_01_01.html.,.
  • 2Puttick K E Franks A.The physics of ductile-regime machining transitions single point theory and experiment[J].精密工学会志,1990,56(5):788-792.
  • 3Shibata. Takayuki, Fujii Shiqeru, Makino Eiji, et al, Duetile-regime turning mechanism of single-crystal silicon.Precision Engineering, 1996, 18(2-3): 129-137.
  • 4Blackley W S, Scattergood R. O. Crystal orientation dependence of machining damage: a stress model. Journal of the America Ceramic Society, 1990, 73(10): 3113-3115.
  • 5Cheung C F, To S, Lee W E. Anisotropy of surface roughness in diamond turning of brittle single crystals. Materials and Manufacturing Processes, 2002, 17(2): 251-267.
  • 6Cheung C F. Influence of cutting friction on anisotropy of surface properties in ultra-precision machining of brittle single crystals. Scripta Materialia, 2003, 48(8): 1213-1218.
  • 7Wang T C. Dislocation theory of for combined cleavage and dislocation emission. Phil. Magazine A, 1996, 74(4):983.
  • 8Bifano T G, Fawcett S C. Specific grinding energy as an in-process control variable for ductile-regime grinding.Precision Engineering, 1991, 13(4): 256-262.
  • 9Myoshino, Aoki T, Chandrasekaran, N. et al. Finite element simulation of plane strain plastic-elastic indentation on single-crystal silicon. International Journal of Mechanical Sciences, 2001, 43(2): 313-333.
  • 10Bernardino Chiaia. Fracture mechanisms induced in a brittle material by a hard cutting indenter. International Journal of Mechanical Sciences, 2001, 38(44-45): 7747-7768.

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