Add to ORKGWe present the basic formalism, as well as the underlying physical picture of atomistic simulations, as applied to the investigation of materials mechanical behavior. In particular, we discuss brittle fracture in cubic silicon carbide, proving that atomistic simulations are not only consistent with elementary continuum fracture mechanics, but also do provide a better physical insight on atomic-scale features, e.g. lattice trapping. Finally, we show how atomistic simulations could be used as a provider of constitutive relations to be possibly used in continuum modeling
In contrast to the great success at the macroscale, fracture mechanics theory fails to describe the ...
Atomistic modeling plays a critical role in advancing our understanding of microstructure evolution ...
When a brittle material is loaded to the limit of its strength, it fails by nucleation and propagati...
We present the basic formalism, as well as the underlying physical picture of atomistic simulations,...
By means of thorough atomistic simulations an energy-based theory, named quantized fracture mechanic...
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...
Atomistic modeling of fracture is intended to illuminate the complex response of atoms in the very h...
We investigate the physical meaning of the intrinsic crack resistance in the Griffith theory of brit...
Atomistic modeling plays a critical role in advancing our understanding of microstructure evolution ...
We investigate the physical meaning of the intrinsic crack resistance in the Griffith theory of brit...
Abstract. Multiscale materials modeling has emerged as a significant concept as well as a unique app...
Abstract: We examine the role of atomistic simula-tions in multiscale modeling of mechanical behavio...
Invited Feature Paper In fracture mechanics, established methods exist to model the stability of a ...
In contrast to the great success at the macroscale, fracture mechanics theory fails to describe the ...
In contrast to the great success at the macroscale, fracture mechanics theory fails to describe the ...
Atomistic modeling plays a critical role in advancing our understanding of microstructure evolution ...
When a brittle material is loaded to the limit of its strength, it fails by nucleation and propagati...
We present the basic formalism, as well as the underlying physical picture of atomistic simulations,...
By means of thorough atomistic simulations an energy-based theory, named quantized fracture mechanic...
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...
Atomistic modeling of fracture is intended to illuminate the complex response of atoms in the very h...
We investigate the physical meaning of the intrinsic crack resistance in the Griffith theory of brit...
Atomistic modeling plays a critical role in advancing our understanding of microstructure evolution ...
We investigate the physical meaning of the intrinsic crack resistance in the Griffith theory of brit...
Abstract. Multiscale materials modeling has emerged as a significant concept as well as a unique app...
Abstract: We examine the role of atomistic simula-tions in multiscale modeling of mechanical behavio...
Invited Feature Paper In fracture mechanics, established methods exist to model the stability of a ...
In contrast to the great success at the macroscale, fracture mechanics theory fails to describe the ...
In contrast to the great success at the macroscale, fracture mechanics theory fails to describe the ...
Atomistic modeling plays a critical role in advancing our understanding of microstructure evolution ...
When a brittle material is loaded to the limit of its strength, it fails by nucleation and propagati...