Experimental and numerical study of the interaction between dynamically loaded cracks and pre-existing flaws in edge loaded PMMA specimens
Keyword(s):
Dynamic fracture tests are carried out for four groups of hole-containing edge loaded specimens. The crack growth velocity, crack path, and dynamic toughness are extracted from the experiments using high-speed photography and digital image correlation. The importance of the interaction between the in-coming stress wave and the pre-existing hole is revealed and analyzed. A micromechanical damage model is calibrated to the experimental data from two of the specimens' designs and evaluated for its predictive capabilities using the other experimental configurations. The studied model is shown to be in reasonable agreement with the experimental data, and its limits are discussed
2000 ◽
Vol 183
(3-4)
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pp. 201-222
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Micromechanical Damage Model for Rocks and Concretes Subjected to Coupled Tensile and Shear Stresses
2008 ◽
Vol 21
(3)
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pp. 232-240
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2013 ◽
Vol 36
(10)
◽
pp. 957-967
Keyword(s):
2018 ◽
Vol 94
◽
pp. 196-206
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Keyword(s):
2012 ◽
Vol 256-259
◽
pp. 2519-2522
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