Incremental analysis of the twoaxial loading of the platewith central circular hole: shakedown (accomodation), alternating plasticity,ratcheting

Turkova, Vera

doi:10.18287/2541-7525-2015-21-3-106-124

Vestnik of Samara University. Natural Science Series

2015

DOI: 10.18287/2541-7525-2015-21-3-106-124

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Incremental analysis of the twoaxial loading of the platewith central circular hole: shakedown (accomodation), alternating plasticity,ratcheting

Vera Turkova¹

Abstract: In the article the results of ﬁnite element calculations for the determination of stress-strain state of elasto-plastic plate with central circular hole which is under the action of cycle loading are presented. Incremental and direct methods of deﬁning asymptotic behaviour of the structure: adaptability, alternating plas- ticility and progressive plastic ﬂow are presented. In the package Simulia Abaqus incremental cyclic loading of samples with stress concentrators is performed.

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2020

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High-cycle fatigue of a metal matrix composite based on an aluminum alloy 7075-T1 reinforced with silicon carbide particles

Горбовец

Kosolapov

Ryzhkov

2020

Vopr. materialoved.

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The article presents results of the fatigue strength study of a metal matrix composites based on an aluminum alloy of the 7075-T1 grade, containing 20 vol.% silicon carbide obtained by powder technology using mechanical alloying followed by hot pressing. The high-cycle fatigue (HCF) study was carried out at five levels of stress amplitude at room temperature and at four levels of stress amplitude at high temperature (100°C). Smooth samples of corset type with a circular cross section were manufactured in accordance with the requirements of GOST 25.502–79. Synthesized samples went through the heat treatment stage characteristic of the matrix aluminum alloy 7075. Spherical particles within the range from 5 to 70 μm served as the raw material for the initial matrix of the composite material, and the raw material for the reinforcing component were silicon carbide powder particles, which after a long mechanical alloying with matrix particles take the form of granules from 400 to 600 microns.The study of fatigue characteristics led to the conclusion that the introduction of a 20% reinforcing phase into the 7075-T1 matrix alloy based on silicon carbide particles made it possible to achieve a 1.3 times increase in endurance limits based on 2·107 cycles. An increase in the test temperature (100°C) leads to a decrease of 8% in the endurance limit. The change in the values of progressive deformation and resonance frequency during testing at room and high temperatures (100°C) is considered. At room temperature, it was found that with increasing durability, progressive deformation accumulates. At high temperature (100°C), it was found that with a decrease in durability, resonance frequency decreases more pronouncedly at each stress level.

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High-cycle fatigue of a metal matrix composite based on an aluminum alloy 7075-T1 reinforced with silicon carbide particles

Горбовец

Kosolapov

Ryzhkov

2020

Vopr. materialoved.

View full text Add to dashboard Cite

show abstract

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Incremental analysis of the twoaxial loading of the platewith central circular hole: shakedown (accomodation), alternating plasticity,ratcheting

Cited by 1 publication

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High-cycle fatigue of a metal matrix composite based on an aluminum alloy 7075-T1 reinforced with silicon carbide particles

High-cycle fatigue of a metal matrix composite based on an aluminum alloy 7075-T1 reinforced with silicon carbide particles

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