Specifics Deformation Aluminium Alloy D16 in Conditions Additional Load Impulse

Dorota Kocańda; Volodymyr Hutsaylyuk; Mykola Czausow; Valentin Berezin; Andriy Sobchak

doi:10.4028/www.scientific.net/KEM.598.99

Paper Titles

The Use of Magnetostrictive Cores for the Vibrations Generation and Energy Harvesting from Vibration, in the Selected Frequencies of Work
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Investigations of Magnetorheological Elastomers Subjected to Cyclic Loading
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Magnetovision Method for Determining the Martensite Phase in the Austenite in Cylindrical and Spherical Objects as a Result of the Cyclic Loads
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Hertzian Crack Propagation in Ceramic Rolling Elements
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Specifics Deformation Aluminium Alloy D16 in Conditions Additional Load Impulse
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Fatigue Behaviour of S235JR Steel after Surface Frictional-Mechanical Treatment in Corrosive Environment
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Effect of Critical Void Volume Fraction f_F on Results of Ductile Fracture Simulation for S235JR Steel under Multi-Axial Stress States
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Application of Fictitious Radius to Fatigue Life Calculations of Bending Notched Specimens
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Effect of Stress Ratio on the Cumulative Value of Energy Dissipation
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HomeKey Engineering MaterialsKey Engineering Materials Vol. 598Specifics Deformation Aluminium Alloy D16 in...

Specifics Deformation Aluminium Alloy D16 in Conditions Additional Load Impulse

Abstract:

The technique of recording the changes in the dynamic deformation field of non-equilibrium processes in the alloys of aluminum. It was established experimentally that the structural changes are implemented in the propagation of elastic waves in the material deformation. Qualitatively be characterized distribution of high plasticity surface of the specimen and determined its size after realization of dynamic non-equilibrium processes.

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Periodical:

Key Engineering Materials (Volume 598)

Pages:

99-104

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.598.99

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Online since:

January 2014

Authors:

Dorota Kocańda, Volodymyr Hutsaylyuk*, Mykola Czausow, Valentin Berezin, Andriy Sobchak

Keywords:

Additional Impulse Load, Aluminium Alloy D16 CzATW, Dissipate Structure, Dynamic Non-Equilibrium Process, Field of Deformation, Strain Rate

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