Desenvolvimento de software para análise e simulação de ensaio de tração aplicado na Engenharia Biomédica

Imagem de Miniatura

Data

2022

Título da Revista

ISSN da Revista

Título de Volume

Editor

Universidade Brasil

Resumo

The physical and chemical properties of materials in addition to biological requirements are of fundamental importance in the development of materials with biomedical application, the physical characteristics are obtained mainly by tensile tests, whereas the shape of an implant can be simulated in commercial software, which use these physical characteristics of the materials as parameters to run the simulation algorithm. As normally the shape and dimensions are fixed and with peculiar characteristics, the selection of the material family is limited, and even within the family the materials can be under or over dimensioned. To solve this problem, the application will enable the designer to simulate the project by calculating a characteristic virtual material within the limits of the control variable, using as basis the physical tests of the under and over dimensioned materials. The objective of this thesis is to develop virtual mechanical tests as an aid in the development of biomedical materials, based on results of physical tensile tests, the application can simulate a mechanical test. Nine physical tensile tests were performed in an Emic machine for each of the control variables (Speed and Diameter), which were subdivided into three groups, at speeds of 7, 15 and 22 mm/min on 304 stainless steel, and diameters of 10, 11 and 12 mm on SAE 1020 steel. In the comparison performed between the virtual materials at 15 mm/min and 11 mm diameter, the application proved to be efficient with error lower than 3% when the results were compared to the physical test on a universal machine and the virtual test on commercial software. The developed application besides graphically locating the points of interest on stress/strain curves also produces mathematically a virtual biomaterial, passive of simulation in commercial software with shapes and dimensions of an implant or biocomponent.

Descrição

Palavras-chave

Ensaio, Tração, Materiais, Biomédico, Simulação

Citação

Avaliação

Revisão

Suplementado Por

Referenciado Por