Atomistic Modeling of Materials Failure is an introduction to molecular and atomistic modeling techniques applied to solid fracture and deformation. Focusing on a variety of brittle, ductile, geometrically confined and biological materials, this detailed overview includes computational methods at the atomic scale, and describes how these techniques can be used to model the dynamics of cracks and other deformation mechanisms.
A full description of molecular dynamics (MD) as a numerical modeling tool covers the use of classical interatomic potentials and implementation of...
Atomistic Modeling of Materials Failure is an introduction to molecular and atomistic modeling techniques applied to solid fracture and de...
Atomistic Modeling of Materials Failure is an introduction to molecular and atomistic modeling techniques applied to solid fracture and deformation. Focusing on a variety of brittle, ductile, geometrically confined and biological materials, this detailed overview includes computational methods at the atomic scale, and describes how these techniques can be used to model the dynamics of cracks and other deformation mechanisms.
A full description of molecular dynamics (MD) as a numerical modeling tool covers the use of classical interatomic potentials and implementation of...
Atomistic Modeling of Materials Failure is an introduction to molecular and atomistic modeling techniques applied to solid fracture and de...
Biomateriomics is the holistic study of biological material systems. While such systems are undoubtedly complex, we frequently encounter similar components -- universal building blocks and hierarchical structure motifs -- which result in a diverse set of functionalities. Similar to the way music or language arises from a limited set of music notes and words, we exploit the relationships between form and function in a meaningful way by recognizing the similarities between Beethoven and bone, or Shakespeare and silk. Through the investigation of material properties, examining fundamental...
Biomateriomics is the holistic study of biological material systems. While such systems are undoubtedly complex, we frequently encounter similar co...
This book discusses the mechanical science of biological materials and structure, including the ability to self-assemble, to self-repair, to adapt and evolve and more. Discusses potential advances in engineered materials that can behave as biological systems.
This book discusses the mechanical science of biological materials and structure, including the ability to self-assemble, to self-repair, to adapt and...
