Add to ORKGFracture mechanisms of an enamel-like hydroxyapatite-collagen composite model are elaborated by means of molecular and coarse-grained dynamics simulation. Using fully atomistic models, we uncover molecular-scale plastic deformation and fracture processes initiated at the organic-inorganic interface. Furthermore, coarse-grained models are developed to investigate fracture patterns at the μm-scale. At the meso-scale, micro-fractures are shown to reduce local stress and thus prevent material failure after loading beyond the elastic limit. On the basis of our multi-scale simulation approach, we provide a molecular scale rationalization of this phenomenon, which seems key to the resilience of hierarchical biominerals, including teeth and bone
The performance of materials depends on their properties, which in turn depend on the atomic structu...
Abstract Bone is an intriguingly complex material. It combines high strength, toughness and lightwei...
Biological composite materials, such as bone, tooth and nacre, are comprised of a mixture of nano-si...
Hard biomaterials such as bone, dentin, and nacre show remarkable mechanical performance and serve a...
A fundamental study of the mechanics at the molecular scale and bridging it to the continuum level t...
This thesis is a comprehensive study of deformation and failure mechanisms in bone at nano- and micr...
Here we focus on recent advances in understanding the deformation and fracture behavior of collagen,...
Bone is a hierarchical biological composite made of a mineral component (hydroxyapatite crystals) an...
We report molecular dynamics simulations of shear in a biomimetic hydroxyapatite-collagen composite....
Biomaterials such as bone and marine exoskeletons have primarily an organic phase (e.g. tropocollage...
International audienceThe inherent computational cost of molecular simulations limits their use to t...
Bone is a complex and very important multi-constituent bio-composite. In this work, we focus on the ...
We report molecular dynamics simulations of shear in a biomimetic hydroxyapatite-collagen composite....
Sacrificial bonds and hidden length (SBHL) in structural molecules provide a mechanism for energy di...
Bones are responsible for body support, structure, motion, and several other functions that enable a...
The performance of materials depends on their properties, which in turn depend on the atomic structu...
Abstract Bone is an intriguingly complex material. It combines high strength, toughness and lightwei...
Biological composite materials, such as bone, tooth and nacre, are comprised of a mixture of nano-si...
Hard biomaterials such as bone, dentin, and nacre show remarkable mechanical performance and serve a...
A fundamental study of the mechanics at the molecular scale and bridging it to the continuum level t...
This thesis is a comprehensive study of deformation and failure mechanisms in bone at nano- and micr...
Here we focus on recent advances in understanding the deformation and fracture behavior of collagen,...
Bone is a hierarchical biological composite made of a mineral component (hydroxyapatite crystals) an...
We report molecular dynamics simulations of shear in a biomimetic hydroxyapatite-collagen composite....
Biomaterials such as bone and marine exoskeletons have primarily an organic phase (e.g. tropocollage...
International audienceThe inherent computational cost of molecular simulations limits their use to t...
Bone is a complex and very important multi-constituent bio-composite. In this work, we focus on the ...
We report molecular dynamics simulations of shear in a biomimetic hydroxyapatite-collagen composite....
Sacrificial bonds and hidden length (SBHL) in structural molecules provide a mechanism for energy di...
Bones are responsible for body support, structure, motion, and several other functions that enable a...
The performance of materials depends on their properties, which in turn depend on the atomic structu...
Abstract Bone is an intriguingly complex material. It combines high strength, toughness and lightwei...
Biological composite materials, such as bone, tooth and nacre, are comprised of a mixture of nano-si...