Research of Formal-Kinetic Regularities of the Curing Process of Low-Viscosity Epoxy Binder

,; Alexandrov, Islam Alexandrovich; Kapitanov, Alexey Vyacheslavovich; ,; Muranov*, Alexander Nikolaevich; ,; Egorov, Sergey Borisovich; ,; Tatarkanov, Aslan Adal`bievich; ,

doi:10.35940/ijitee.b7662.129219

Cited by 2 publications

(1 citation statement)

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“…Based on the results obtained, it can be concluded that the errors of the target parameters arise from the simulation complexity of the manufacture of products from composite materials by injection molding methods, requiring the consideration of many factors. The most signifi cant ones are bulk polymerization of the binder and change of its viscosity in the process of compounding and impregnation, the fabric pliability and permeability of the fi brous preform, as demonstrated in papers [12][13][14].…”

Section: Methodsmentioning

confidence: 99%

Application of neural simulation methods for technological parameters identification of composite products injection molding process

Alexandrov¹,

Maxim²,

Andrey³

2020

J Appl Eng Science

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The article presents the research results of technological parameters of composite material products manufacturing by the injection transfer molding method using automated tools of preproduction engineering. For the verifi cation of computer simulation results, experimental studies have been carried out on the injection-molding machine for products from fi brous polymer composite materials. The conducted comparative analysis of calculated and actual values of impregnation technological parameters has led us to the conclusion that for the effective application of the modern software for preproduction engineering of composite products it may be necessary to make a joint correction of the input data used for the calculation obtained from the preliminary independent experimental research of the complex of properties for each used component of the composite material. For the joint correction of the input data used for the calculation and improvement of the effi ciency of automation systems for preproduction engineering of composite products, the concept of the neural simulation tools application for the technological process of composite products manufacturing by injection molding methods has been proposed. For training and testing of the neural model, experimental studies of the impregnation of the products with the surface curvature of the second order have been conducted. The optimization problem was solved by forecasting the front movement of the technical fl uid in the volume of preforms during transfer molding.

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Section: Methodsmentioning

confidence: 99%