Open AccessКонечно-элементное моделирование одноосного растяжения образцов из функционально-градиентного материала с использованием мультилинейной модели пластичности
Author(s) -
В.Ш. Суфияров,
А.В. Орлов,
Е.В. Борисов,
И.А. Полозов,
А.А. Попович,
М.О. Чуковенкова,
А.В. Соклаков,
Д.С. Михалюк
Publication year - 2021
Publication title -
žurnal tehničeskoj fiziki
Language(s) - English
Resource type - Journals
eISSN - 1726-748X
pISSN - 0044-4642
DOI - 10.21883/jtf.2021.01.50268.21-19
Subject(s) - multilinear map , materials science , finite element method , ultimate tensile strength , composite number , homogeneous , bilinear interpolation , tensile testing , composite material , material properties , structural engineering , mathematics , engineering , statistics , combinatorics , pure mathematics
In this paper, the authors suggested a finite element approach to the simulation of mechanical properties of functionally graded materials (FGM) using a multilinear plastic material model. The approach was used to simulate tensile test experiments on the homogeneous specimens manufactured at two laser power regimes and composite specimens based on the materials considered. We showed a correlation between the simulation results and the experiment. We studied the mechanical effect of geometry and size of inserts in the composite specimens and determined that changing the size and geometry of the inserts can modify the mechanical characteristics of the specimen. We found that the multilinear plastic material model provides the highest level of agreement between simulation and experimental results and, unlike the bilinear model, is more comprehensive.