Numerical calculations of displacements in aluminum alloy 356.0, copper alloy C93200 and grade G4000 discs depending on temperature-Reference-Cited by-同舟云学术

Numerical calculations of displacements in aluminum alloy 356.0, copper alloy C93200 and grade G4000 discs depending on temperature

Published:2024-06-06 Issue:1 Volume:2 Page:1253
ISSN:3029-2824
Container-title:Nano Carbons
language:
Short-container-title:Nano Carbons

Author:

Kayiran Hüseyin Fırat

Abstract

The behavior of temperatures is very important from the point of view of materials science. Each material has its own unique identity and the resistance they show to temperature is different. They may vary depending on the areas of use on disks. In this study, the displacements occurring in disks consisting of three different materials were calculated by means of a mathematical program. Aluminum alloy A356. 0-T6 and 356.0 area are composed of 7% Si, 0.2 Fe (max) and 0.10 Zn (max) and 0.3% Mg alloy. Copper alloy C93200 (bearing bronze) consists of 85% to 8% Pb and Sn 6.5% and other materials. Grade G4000 is composed of Iron (Fe) 94.5%, carbon 3.3%, silicon 1.7% and other materials. The obtained stresses were compared among themselves and decoupled by means of graphs. In this study, the effect of temperature on displacement was investigated. At the end of the study: Displacements occurring on the disk generally occurred most often on the disk with aluminum alloy 356.0 material. In turn, it is thought that the result can already be expressed as grade G4000 and copper alloy C93200 (bearing bronze) towards the minimum.

Publisher

Academic Publishing Pte. Ltd.

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