@article{oai:nagasaki-u.repo.nii.ac.jp:00018281,
 author = {Zhao, Cheng and Matsuda, Hiroshi and Huang, Mei and Kouzuma, Hayato and Kawabayasi, Hirosachi},
 issue = {71},
 journal = {長崎大学工学部研究報告, Reports of the Faculty of Engineering, Nagasaki University},
 month = {Oct},
 note = {Present paper consists of peak strength model and failure process simulation of both experimental and numerical method. The peak strength model of brittle materials with a pre-existing open-hole defect is proposed in this paper. A modified Sammis-Ashby model is deduced, which can be used to calculate the peak strength of brittle materials. It shows the law between peak strength σ.and independent variable μ, which is the ratio of open-hole radius (a) to half-width of the specimen (t). Then in the second part, both of experimental and numerical investigations were carried on open-hole specimens. A progressive elastic damage method (RFPA) is employed to inspect and verify the modified model and simulation the failure process. The investigation finds that there are good correlations between the experimental and numerical values. In the process simulation, due to the influences of boundary conditions, secondary cracks developed in the shear zones till failure, therefore the shear failure type was obtained., 長崎大学工学部研究報告 Vol.38(71), p.28-35; 2008},
 pages = {28--35},
 title = {Peak Strength Analysis and Failure Process Simulation of Brittle Materials with an Open-hole under Uniaxial Compression},
 volume = {38},
 year = {2008}
}