L. M. Canel scite author profile

L. M. Canel

5Publications

51Citation Statements Received

61Citation Statements Given

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Washington University in St. Louis

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Effects of crack tip geometry on dislocation emission and cleavage: A possible path to enhanced ductility

1997

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We present a systematic study of the effect of crack blunting on subsequent crack propagation and dislocation emission. We show that the stress intensity factor required to propagate the crack is increased as the crack is blunted by up to thirteen atomic layers, but only by a relatively modest amount for a crack with a sharp 60 • corner. The effect of the blunting is far less than would be expected from a smoothly blunted crack; the sharp corners preserve the stress concentration, reducing the effect of the blunting. However, for some material parameters blunting changes the preferred deformation mode from brittle cleavage to dislocation emission. In such materials, the absorption of preexisting dislocations by the crack tip can cause the crack tip to be locally arrested, causing a significant increase in the microscopic toughness of the crack tip. Continuum plasticity models have shown that even a moderate increase in the microscopic toughness can lead to an increase in the macroscopic fracture toughness of the material by several orders of magnitude. We thus propose an atomic-scale mechanism at the crack tip, that ultimately may lead to a high fracture toughness in some materials where a sharp crack would seem to be able to propagate in a brittle manner.When the crack is loaded in mode II, the load required to emit a dislocation is affected to a much higher degree by the blunting, in agreement with the estimates from continuum elasticity. In mode II the emission process is aided by a reduction of the free surface area during the emission process. This leads to emission at crack loadings which are lower than predicted from the continuum analysis of Rice.

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Efficient effective-energy method for lattice-Green’s-function simulations of fracture

Canel¹,

Carlsson²,

Thomson³

1995

Phys. Rev. B

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Effect of overlap on semiempirical potentials derived from tight binding

1993

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Overlap must explicitly be included when empirical interatomic potentials for use in environments of low symmetry are derived using tight-binding theory. We derive a simplified real-space total-energy expression that takes into account the first and second moments of the density of states including overlap. It uses the extended Huckel theory and Taylor and Pade truncations for the inverse of the overlap matrix. Our approximate expression is tested for an s-band nearest-neighbor model by carrying out nurnerical integrations over exact densities of states for many lattices of different dimensionality and coordination number. Within a two-body simplification the inclusion of overlap leads to a new functional form for use in developing embedded-atom functionals. Quantitative accuracy is improved, however, when the three-body Pade-approximation-derived form is used.

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Effect of Crack Blunting on Subsequent Crack Propagation

et al. 1995

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Theories of toughness of materials depend on an understanding of the characteristic instabilities of the crack tip, and their possible interactions. In this paper we examine the effect of dislocation emission on subsequent cleavage of a crack and on further dislocation emission. The work is an extension of the previously published Lattice Greens Function methodology [1,2,3]. We have developed a Cavity Greens Function describing a blunt crack and used it to study the effect of crack blunting under a range of different force laws. As the crack is blunted, we find a small but noticeable increase in the crack loading needed to propagate the crack. This effect may be of importance in materials where a dislocation source near the crack tip in a brittle material causes the crack to absorb anti-shielding dislocations, and thus cause a blunting of the crack. It is obviously also relevant to cracks in more ductile materials where the crack itself may emit dislocations.

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Effect Of Crack Blunting On Subsequent Crack Propagation

et al. 1995

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L. M. Canel

Effects of crack tip geometry on dislocation emission and cleavage: A possible path to enhanced ductility

Efficient effective-energy method for lattice-Green’s-function simulations of fracture

Effect of overlap on semiempirical potentials derived from tight binding

Effect of Crack Blunting on Subsequent Crack Propagation

Effect Of Crack Blunting On Subsequent Crack Propagation

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