Add to ORKGThe fracture of highly-crosslinked networks is investigated by molecular dynamics simulations. The network is modeled as a bead-spring polymer network between two solid surfaces. The network is dynamically formed by crosslinking an equilibrated liquid mixture. Tensile pull fracture is simulated as a function of the number of interracial bonds. The sequence of molecular structural deformations that lead to failure are determined, and the connectivity is found to strongly control the stress-strain response and failure modes. The failure strain is related to the minimal paths in the network that connect the two solid surfaces. The failure stress is a fraction of the ideal stress required to fracture all the interracial bonds, and is linearly p...
We use molecular-dynamics simulations of a polymer film confined between two walls to isolate the f...
We study the phenomena of fracture in polymers at the molecular and continuum level. At a molecular ...
The toughness of a polymer material can increase significantly if two networks are combined into one...
The effect of cross-linker functionality and interfacial bond density on the fracture behavior of hi...
For highly crosslinked, polymer networks bonded to a solid surface, the effect of interfacial bond d...
The strength of the interface between a structural adhesive and a solid surface is a fundamental iss...
By studying model polymeric networks which only differ in their connectivity, the connectivity is sh...
The effects of mixed functionality and degree of curing on the stress−strain behavior of highly cros...
AbstractComprehensive molecular dynamics simulations, employing a coarse-grained bead-spring model, ...
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 ...
Large-scale molecular simulations are performed to investigate tensile failure of polymer interfaces...
The crosslink density plays a key role in the mechanical response of the amorphous polymers in previ...
Advances in polymer chemistry over the last decade have enabled the synthesis of molecularly precise...
Al~tract--The mechanics of fracture of a stably extending interface crack in polymeric adhesive bond...
We use molecular-dynamics simulations of a polymer film confined between two walls to isolate the f...
We study the phenomena of fracture in polymers at the molecular and continuum level. At a molecular ...
The toughness of a polymer material can increase significantly if two networks are combined into one...
The effect of cross-linker functionality and interfacial bond density on the fracture behavior of hi...
For highly crosslinked, polymer networks bonded to a solid surface, the effect of interfacial bond d...
The strength of the interface between a structural adhesive and a solid surface is a fundamental iss...
By studying model polymeric networks which only differ in their connectivity, the connectivity is sh...
The effects of mixed functionality and degree of curing on the stress−strain behavior of highly cros...
AbstractComprehensive molecular dynamics simulations, employing a coarse-grained bead-spring model, ...
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 ...
Large-scale molecular simulations are performed to investigate tensile failure of polymer interfaces...
The crosslink density plays a key role in the mechanical response of the amorphous polymers in previ...
Advances in polymer chemistry over the last decade have enabled the synthesis of molecularly precise...
Al~tract--The mechanics of fracture of a stably extending interface crack in polymeric adhesive bond...
We use molecular-dynamics simulations of a polymer film confined between two walls to isolate the f...
We study the phenomena of fracture in polymers at the molecular and continuum level. At a molecular ...
The toughness of a polymer material can increase significantly if two networks are combined into one...