Determination of Steady Ratcheting Strain Rate Under Biaxial Loading Based on Cycle Nonproportionality Coefficient

An approach to the determination of steady ratcheting strain rate under biaxial loading depending on the loading cycle geometry is proposed. Based on the data analysis, the microstructural investigation results, as well as the similarity detected between the microstructural formations after deformat...

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Veröffentlicht in:Strength of materials 2017-03, Vol.49 (2), p.250-255
Hauptverfasser: Adamchuk, M. P., Borodii, M. V.
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description An approach to the determination of steady ratcheting strain rate under biaxial loading depending on the loading cycle geometry is proposed. Based on the data analysis, the microstructural investigation results, as well as the similarity detected between the microstructural formations after deformation at the stress- and strain-controlled modes of loading, it is proposed to use the cycle nonproportionality parameter to predict the ratcheting rate. It is shown that the geometric cycle parameters and basic experiments allow one to adequately predict the ratcheting rate for complex cyclic paths.
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subjects Alloys
Biaxial loads
Characterization and Evaluation of Materials
Chemistry and Materials Science
Classical Mechanics
Data analysis
Deformation
Information management
Materials Science
Ratcheting
Serrated yielding
Similarity
Solid Mechanics
Strain rate
title Determination of Steady Ratcheting Strain Rate Under Biaxial Loading Based on Cycle Nonproportionality Coefficient
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