Energy Dissipation in Dynamic Fracture
- 18 March 1996
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 76 (12) , 2117-2120
- https://doi.org/10.1103/physrevlett.76.2117
Abstract
Measurements in PMMA of both the energy flux into the tip of a moving crack and the total surface area created via the microbranching instability indicate that the instability is the main mechanism for energy dissipation by a moving crack in brittle, amorphous material. Beyond the instability onset, the rate of fracture surface creation is proportional to the energy flux into the crack. At high velocities microbranches create nearly an order of magnitude larger fracture surface than smooth cracks. This mechanism provides an explanation for why the theoretical limiting velocity of a crack is never realized.Keywords
This publication has 19 references indexed in Scilit:
- Local Crack Branching as a Mechanism for Instability in Dynamic FracturePhysical Review Letters, 1995
- Experimental Study of the Instability of Crack Propagation in Brittle MaterialsEurophysics Letters, 1995
- Dynamic instability in crack propagationPhysical Review E, 1994
- Dynamic model of onset and propagation of fracturePhysical Review Letters, 1993
- Models of crack propagationPhysical Review A, 1992
- Instability in the propagation of fast cracksPhysical Review B, 1992
- Instability in dynamic fracturePhysical Review Letters, 1991
- An experimental investigation into dynamic fracture: II. Microstructural aspectsInternational Journal of Fracture, 1984
- Kinetics of crack tip craze zone before and during fracturePolymer Engineering & Science, 1984
- Measurement of the dynamic fracture toughness of polymethylmethacrylate by high-speed photographyEngineering Fracture Mechanics, 1974