Publication result detail
Dynamic Mechanical Response of Hybrid Physical Covalent Networks - Molecular Dynamics Simulation
ŽÍDEK, J.; MILCHEV, A.; JANČÁŘ, J.; VILGIS, T.
Original Title
Dynamic Mechanical Response of Hybrid Physical Covalent Networks - Molecular Dynamics Simulation
English Title
Dynamic Mechanical Response of Hybrid Physical Covalent Networks - Molecular Dynamics Simulation
Type
WoS Article
Original Abstract
In this article, we present two principal stimuli that affect the deformation response: additional covalent crosslinking and external deformation. Additional crosslinking leads to hybrid gels which show improved toughness in comparison to the physical gels. The article considers also the change of response of the model as a consequence of external mechanical loading. In this case, the structural changes driven by deformation induce permanent structural changes owing to extensive stretching analogous to filament drawing in spider silk or collagen. Almost identical atomistic configurations are transformed into various materials, depending on the stimulus and the conditions. The intensity of stimuli can be regulated also in real materials. The degree of covalent crosslinking can be regulated for example by ultraviolet irradiation. The permanent changes are observed only when the stretching ratio is sufficiently large and stretching is quick.
English abstract
In this article, we present two principal stimuli that affect the deformation response: additional covalent crosslinking and external deformation. Additional crosslinking leads to hybrid gels which show improved toughness in comparison to the physical gels. The article considers also the change of response of the model as a consequence of external mechanical loading. In this case, the structural changes driven by deformation induce permanent structural changes owing to extensive stretching analogous to filament drawing in spider silk or collagen. Almost identical atomistic configurations are transformed into various materials, depending on the stimulus and the conditions. The intensity of stimuli can be regulated also in real materials. The degree of covalent crosslinking can be regulated for example by ultraviolet irradiation. The permanent changes are observed only when the stretching ratio is sufficiently large and stretching is quick.
Keywords
deformation; hybrid gel; hydrogel; molecular dynamics; tensile
Key words in English
deformation; hybrid gel; hydrogel; molecular dynamics; tensile
Authors
ŽÍDEK, J.; MILCHEV, A.; JANČÁŘ, J.; VILGIS, T.
RIV year
2018
Released
15.06.2017
ISBN
1022-1360
Periodical
MACROMOLECULAR SYMPOSIA
Volume
373
Number
1
State
Federal Republic of Germany
Pages from
1600147-1
Pages to
1600147-9
Pages count
9