Add to ORKGIn fracture mechanics, established methods exist to model the stability of a crack tip or the kinetics of crack growth on both the atomic and the macroscopic scale. However, approaches to bridge the two scales still face the challenge in terms of directly converting the atomic forces at which bonds break into meaningful continuum mechanical failure stresses. Here we use two atomistic methods to investigate cleavage fracture of brittle materials: (i) we analyze the forces in front of a sharp crack and (ii) we study the bond breaking process during rigid body separation of half crystals without elastic relaxation. The comparison demonstrates the ability of the latter scheme, which is often used in ab initio density functional theory calculati...
The fracture criterion for a plastically deformable crystal has been examined by considering the ene...
Anti-shielding of a crack tip by a dislocation is examined at the atomistic level for a simple geome...
Energy dissipation by dislocation plasticity in metals provides the resistance against crack growth ...
Invited Feature Paper In fracture mechanics, established methods exist to model the stability of a ...
Atomistic modeling of fracture is intended to illuminate the complex response of atoms in the very h...
In contrast to the great success at the macroscale, fracture mechanics theory fails to describe the ...
Any fracture process ultimately involves the rupture of atomic bonds. Processes at the atomic scale ...
This report describes an Engineering Sciences Research Foundation (ESRF) project to characterize and...
Materials fail by the nucleation and propagation of a crack, the critical condition of which is quan...
We study the problem of atomic scale fracture using the recently developed quasicontinuum method in ...
A fracture mechanics framework has been developed for predicting crack initiation and growth in full...
We present the basic formalism, as well as the underlying physical picture of atomistic simulations,...
Advances in Our understanding of the mechanisms of brittle and semi-brittle fracture processes are o...
Brittle objects fail because of cracks. But how and why do they move? The answers to these questions...
The fracture behaviors of nanoscale sp-bonded materials have been studied using the molecular dynami...
The fracture criterion for a plastically deformable crystal has been examined by considering the ene...
Anti-shielding of a crack tip by a dislocation is examined at the atomistic level for a simple geome...
Energy dissipation by dislocation plasticity in metals provides the resistance against crack growth ...
Invited Feature Paper In fracture mechanics, established methods exist to model the stability of a ...
Atomistic modeling of fracture is intended to illuminate the complex response of atoms in the very h...
In contrast to the great success at the macroscale, fracture mechanics theory fails to describe the ...
Any fracture process ultimately involves the rupture of atomic bonds. Processes at the atomic scale ...
This report describes an Engineering Sciences Research Foundation (ESRF) project to characterize and...
Materials fail by the nucleation and propagation of a crack, the critical condition of which is quan...
We study the problem of atomic scale fracture using the recently developed quasicontinuum method in ...
A fracture mechanics framework has been developed for predicting crack initiation and growth in full...
We present the basic formalism, as well as the underlying physical picture of atomistic simulations,...
Advances in Our understanding of the mechanisms of brittle and semi-brittle fracture processes are o...
Brittle objects fail because of cracks. But how and why do they move? The answers to these questions...
The fracture behaviors of nanoscale sp-bonded materials have been studied using the molecular dynami...
The fracture criterion for a plastically deformable crystal has been examined by considering the ene...
Anti-shielding of a crack tip by a dislocation is examined at the atomistic level for a simple geome...
Energy dissipation by dislocation plasticity in metals provides the resistance against crack growth ...