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Title: | Connecting the essential work of fracture, stress intensity factor, Hill’s criterion in mixed mode I/II loading |
Authors: | De Marco Muscat-Fenech, Claire Ciappara, Stephen |
Keywords: | Hydraulic fracturing Fracture mechanics -- Mathematics Materials science Materials -- Mechanical properties Strength of materials |
Issue Date: | 2013 |
Publisher: | Springer |
Citation: | Muscat-Fenech, C. D. M., & Ciappara, S. (2013). Connecting the essential work of fracture, stress intensity factor, Hill’s criterion in mixed mode I/II loading. International Journal of Fracture, 183(2), 187-202. |
Abstract: | Ductile sheet structures are frequently subjected to mixed mode loading, resulting that the structure is under the influence of a mixed mode stress field. Instances of interest are when stable crack growth occurs and when the crack-tip is propagating in this complex mixed-mode condition, prior to final fracture. Purposely designed apparatus was built to test thinsheets of steel (Grade: DX51D) under mixed-mode I/II. These tests, under plane stress conditions, also investigated the effect of thickness on the specific essential work of fracture or the fracture toughness of the material under quasi-static cracking conditions. The fracture toughness is evaluated under incremental mixed-mode loading conditions. The direction of the propagating crack path and fracture type were observed and discussed as the loading mixity was varied. Whilst the specific essential work of fracture or fracture toughness was obtained using the energy approach, the theoretical analysis of the fracture type and direction of crack path were based on the crack tip stresses and fracture criterions of maximum hoop stress and maximum shear stress along with the utilisation of Hill’s theory. For mixed-mode I/II loading, the variation in the fracture toughness contributions ratios are evaluated and used predicatively using the established energy criterion approach to the crack tip stress intensity approach. The comparison between the theoretical directions of the crack path, failure mode propagation are in good agreement with those obtained from experimental testing indicating the definite link between both approaches. |
URI: | https://www.um.edu.mt/library/oar/handle/123456789/86905 |
Appears in Collections: | Scholarly Works - FacEngME |
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