Add to ORKGNetworks of biopolymers occur often in nature, and are vulnerable to damage over time. In this work, a coarse grained model of collagen IV molecules is applied in a 2D hexagonal network and the mechanisms by which these networks can rupture are explored. The networks are stretched linearly in order to study their structural limits and mechanism of rupture over timescale of up to 100 μs. Metrics are developed to track the damage networks suffer over time, and qualitatively analyse ruptures that occur. Further simulations repeatedly stretch the networks sinusoidally to mimic the in vivo strains. Defects of increasing levels of complexity are introduced into an ordered network, and their effect on the rupturing behaviour of the biopolymer netw...
In a recent publication, we studied the mechanical stiffening behavior in two-dimensional (2D) cross...
Biopolymer networks, such as those constituting the cytoskeleton of a cell or biological tissue, exh...
Collagen networks provide the main structural component of most tissues and represent an important i...
Collagen IV networks play a key structural role in the human ocular lens capsule. However, their str...
Cross-linked polymer networks are stress supporting structures that represent an important class of ...
Cross-linked polymer networks are stress supporting structures that represent an important class of ...
Abstract: Strain-stiffening behavior common to biopolymer networks is difficult to reproduce in syn...
Soft network materials exist in numerous forms ranging from polymer networks, such as elastomers, to...
We study the micromechanics of collagen-I gel with the goal of bridging the gap between theory and e...
Many biological systems involve intricate, hierarchical networks formed from cross-linked filaments,...
Fracture of materials is both undesirable and unavoidable; therefore, there is great interest in met...
In a recent publication, we studied the mechanical stiffening behavior in two-dimensional (2D) cross...
In this thesis, we study the mechanical properties of biopolymer networks. We discuss which of these...
The force-extension behavior of single modular biomacromolecules is known to exhibit a characteristi...
Collagen networks, the main structural/mechanical elements in biological tissues, increasingly serve...
In a recent publication, we studied the mechanical stiffening behavior in two-dimensional (2D) cross...
Biopolymer networks, such as those constituting the cytoskeleton of a cell or biological tissue, exh...
Collagen networks provide the main structural component of most tissues and represent an important i...
Collagen IV networks play a key structural role in the human ocular lens capsule. However, their str...
Cross-linked polymer networks are stress supporting structures that represent an important class of ...
Cross-linked polymer networks are stress supporting structures that represent an important class of ...
Abstract: Strain-stiffening behavior common to biopolymer networks is difficult to reproduce in syn...
Soft network materials exist in numerous forms ranging from polymer networks, such as elastomers, to...
We study the micromechanics of collagen-I gel with the goal of bridging the gap between theory and e...
Many biological systems involve intricate, hierarchical networks formed from cross-linked filaments,...
Fracture of materials is both undesirable and unavoidable; therefore, there is great interest in met...
In a recent publication, we studied the mechanical stiffening behavior in two-dimensional (2D) cross...
In this thesis, we study the mechanical properties of biopolymer networks. We discuss which of these...
The force-extension behavior of single modular biomacromolecules is known to exhibit a characteristi...
Collagen networks, the main structural/mechanical elements in biological tissues, increasingly serve...
In a recent publication, we studied the mechanical stiffening behavior in two-dimensional (2D) cross...
Biopolymer networks, such as those constituting the cytoskeleton of a cell or biological tissue, exh...
Collagen networks provide the main structural component of most tissues and represent an important i...