Abstract
This paper presents an approach to computer simulation of related problems of sintering low-temperature composites. The developed approach makes it possible to numerically calculate the values of shrinkage, concentration of components, and porosity of a sintered compact. The research results have shown that in the formation of the structure of a sintered low-temperature composite material, a decisive contribution is made by the possibility of forming a refractory frame of refractory components of the mixture. The developed modeling scheme makes it possible to estimate the values and nature of residual stresses in the material during the preparation of the initial compact of the sintered sample and the thermal destruction of the binder. The uniqueness of the developed integrated approach lies in the possibility of using a wide range of dispersed elements with various magnetic, thermodynamic, mechanical, and other properties as a refractory component.
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Tovpinets, A.O., Leitsin, V.N., Dmitrieva, M.A., Puzatova, A.V. (2023). Computer Simulation of Related Problems of Sintering Low-Temperature Ceramics. In: Orlov, M.Y., Visakh P. M. (eds) Behavior of Materials under Impact, Explosion, High Pressures and Dynamic Strain Rates. Advanced Structured Materials, vol 176. Springer, Cham. https://doi.org/10.1007/978-3-031-17073-7_15
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DOI: https://doi.org/10.1007/978-3-031-17073-7_15
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