Calculation of Failure Probability for Brittle Materials
作者: J. Smart , S. L. Fok
DOI: 10.1007/978-94-011-3688-4_23
关键词: Finite element method 、 Stress concentration 、 Pure bending 、 Composite material 、 Weibull distribution 、 Bar (music) 、 Materials science 、 Bending 、 Brittleness 、 Beam (structure)
摘要: The determination of the failure probability brittle materials using Weibull statistics and finite element method is examined. Three cases are examined, a beam in pure bending, tapered rod notched bar bending.
springer.com
sci-hub.st 参考文章(8)
John P. Gyekenyesi, Noel N. Nemeth, Jane M. Manderscheid, Design of ceramic components with the NASA/CARES computer program ,(1990)
J. D. Snedden, C. D. Sinclair, Statistical Mapping and Analysis of Engineering Ceramics Data Springer Netherlands. pp. 99- 116 ,(1989) , 10.1007/978-94-009-1117-8_8
Ayal de S. Jayatilaka, Fracture of engineering brittle materials ,(1979)
Thomas Thiemeier, Angelika Bruckner-Foit, Helmut Kolker, Influence of the Fracture Criterion on the Failure Prediction of Ceramics Loaded in Biaxial Flexure Journal of the American Ceramic Society. ,vol. 74, pp. 48- 52 ,(1991) , 10.1111/J.1151-2916.1991.TB07295.X
Ogierd Cecil Zienkiewicz, The finite element method London: McGraw-Hill. ,(1989)
J. Smart, The determination of failure probability using Weibull probability statistics and the finite element method Res mechanica. ,vol. 31, pp. 205- 219 ,(1990)
G. Diaz, P. Kittl, Weivull's fracture statistics, or probabilistic strength of materials: state of the art Res mechanica. ,vol. 24, pp. 99- 207 ,(1988)
Mechanics of creep brittle materials 1 Elsevier Applied Science. ,(1989) , 10.1007/978-94-009-1117-8