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W4313444438 abstract "The healing response in self-healing materials is regulated by the rates of three distinct stages: actuation, transport, and repair. The healing efficiency is dictated by delicately balancing the rate of damage versus the rate of healing. The material damage rate is determined by the frequency of strain rate, loading, and stress amplitude. However, by changing the reaction kinetics through temperature or concentration the healing rate can be designed to specific damage modes. Vitrimers are a particular subcategory of intrinsic self-healing materials that flow at temperatures higher than the topology freezing temperature and show thermoset-like behavior at low temperatures. Vitrimer chemistry is an excellent way to combine the favorable mechanical properties of covalently crosslinked thermosets with full recyclability and create intrinsic self-healing materials without needing a healing agent. Recently, several theoretical frameworks, coarse-grained particle dynamics simulations, and finite element analysis (FEA) have been used to probe the thermodynamics, dynamics, rheology, and mechanics of these transient networks. Particle-based dynamic simulations have successfully produced key features of vitrimers, rubbery plateau, and terminal modulus behaviors. On a continuum level, constitutive equations have been developed to study the effect of the kinetics of the bond exchange on the macroscopic material response. In this chapter, the recent advances in the modeling aspect of vitrimers ranging from particles-based simulation techniques to FEA are reviewed." @default.
W4313444438 created "2023-01-06" @default.
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W4313444438 date "2023-01-01" @default.
W4313444438 modified "2023-09-28" @default.
W4313444438 title "Modeling and Simulation of Vitrimers" @default.
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W4313444438 doi "https://doi.org/10.1007/978-981-19-6038-3_8" @default.
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