期刊
REPORTS ON PROGRESS IN PHYSICS
卷 77, 期 4, 页码 -出版社
IOP PUBLISHING LTD
DOI: 10.1088/0034-4885/77/4/046501
关键词
dynamic fracture; material failure; nonlinear elasticity; crack mechanics; instabilities; singularities
资金
- James S McDonnell Fund
- Minerva Foundation
- Federal German Ministry for Education and Research
- Harold Perlman Family Foundation
- William Z and Eda Bess Novick Young Scientist Fund
- European Research Council [267256]
- Israel Science Foundation [76/11]
- European Research Council (ERC) [267256] Funding Source: European Research Council (ERC)
The failure of materials and interfaces is mediated by cracks, almost singular dissipative structures that propagate at velocities approaching the speed of sound. Crack initiation and subsequent propagation-the dynamic process of fracture-couples a wide range of time and length scales. Crack dynamics challenge our understanding of the fundamental physics processes that take place in the extreme conditions within the almost singular region where material failure occurs. Here, we first briefly review the classic approach to dynamic fracture, namely linear elastic fracture mechanics (LEFM), and discuss its successes and limitations. We show how, on the one hand, recent experiments performed on straight cracks propagating in soft brittle materials have quantitatively confirmed the predictions of this theory to an unprecedented degree. On the other hand, these experiments show how LEFM breaks down as the singular region at the tip of a crack is approached. This breakdown naturally leads to a new theoretical framework coined 'weakly nonlinear fracture mechanics', where weak elastic nonlinearities are incorporated. The stronger singularity predicted by this theory gives rise to a new and intrinsic length scale, l(nl). These predictions are verified in detail through direct measurements. We then theoretically and experimentally review how the emergence of l(nl) is linked to a new equation for crack motion, which predicts the existence of a high-speed oscillatory crack instability whose wavelength is determined by l(nl). We conclude by delineating outstanding challenges in the field.
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