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(308) Production(s) de KOB W.
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Structural and mechanical properties of bio-inspired polymer networks 
Auteur(s): Hugouvieux Virginie, Kob W.
Conférence invité: Network dynamics: Synthesis, structure and mechanical properties (Les Houches School of Physics, FR, 2024-02-26)
Ref HAL: hal-04661726_v1
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Résumé: We use molecular dynamics simulations to study the structural and mechanical properties of bead-spring polymer networks. In this study we deal with systems which are biologically-relevant as they result from the action of enzymes, i.e. biological catalysts. The latter convert repulsive monomers into attractive ones and hence, starting from a polymer solution, trigger the formation of a physically-crosslinked polymer network. This gel has a remarkably regular mesostructure in the form of a cluster phase. We simulate uniaxial tension of these networks. The evolution of their structural and mechanical properties during deformation is monitored by computing quantities such as the anisotropic pair correlation functions, Poisson's ratio, elastic moduli and stress-strain curves, and the effects of temperature and system composition (i.e. fraction of attractive monomers) are investigated.
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From creep to flow: Granular materials under cyclic shear
Auteur(s): Yuan Ye, Zeng Zhikun, Yuan Houfei, Zhang Shuyang, Kob W. , Wang Yujie
(Article) Publié:
Nature Communications, vol. 15 p.3866 (2024)
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Creating equilibrium glassy states via random particle bonding
Auteur(s): Ozawa M., Barrat Jean-Louis, Kob W., Zamponi Francesco
(Article) Publié:
Journal Of Statistical Mechanics: Theory And Experiment, vol. 2024 p.013303 (2024)
Texte intégral en Openaccess : 
Ref HAL: hal-04721895_v1
Ref Arxiv: 2311.08079
DOI: 10.1088/1742-5468/ad17b6
Ref. & Cit.: NASA ADS
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Résumé: Abstract Creating amorphous solid states by randomly bonding an ensemble of dense liquid monomers is a common procedure that is used to create a variety of materials, such as epoxy resins, colloidal gels, and vitrimers. However, the properties of the resulting solid do a priori strongly depend on the preparation history. This can lead to substantial aging of the material; for example, properties such as mechanical moduli and transport coefficients rely on the time elapsed since solidification, which can lead to a slow degradation of the material in technological applications. It is therefore important to understand under which conditions random monomer bonding can lead to stable solid states, that is, long-lived metastable states whose properties do not change over time. This work presents a theoretical and computational analysis of this problem and introduces a random bonding procedure that ensures the proper equilibration of the resulting amorphous states. Our procedure also provides a new route to investigate the fundamental properties of glassy energy landscapes by producing translationally invariant ultrastable glassy states in simple particle models.
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Intermediate-range order governs dynamics in dense colloidal liquids
Auteur(s): Singh Navneet, Zhang Z., Sood A.k., Kob W., Ganapathy Rajesh
(Article) Publié:
Proceedings Of The National Academy Of Sciences Of The United States Of America, vol. 120 p.e2300923120 (2023)
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The medium-range order in silicate glass-formers: From standard two-body indicators to many-body correlations
Auteur(s): Kob W.
Conférence invité: ICG Annual Meeting 2023 (Hangzhou, CN, 2023-11-12)
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Topology of vibrational modes predicts plastic events in glasses
Auteur(s): Wu Zhenwei, Chen Yixiao, Wang Wei-hua, Kob W., Xu Limei
(Article) Publié:
Nature Communications, vol. 14 p.2955 (2023)
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The two faces of friction in the relaxation dynamics of granular systems
Auteur(s): Kob W.
Conférence invité: Komaba Mini-Workshop (Tokyo, JP, 2023-08-22)
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