ANALYSIS OF TWO APPROACHES TO DETERMINING THE ELASTICITY CONSTANTS OF POLYCRYSTALLINE MATERIALS

MARINA, Viorica

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Please use this identifier to cite or link to this item: http://cris.utm.md/handle/5014/2010

Title: ANALYSIS OF TWO APPROACHES TO DETERMINING THE ELASTICITY CONSTANTS OF POLYCRYSTALLINE MATERIALS

Authors: MARINA, Viorica

Keywords: stress;strain;anisotropy;structural model;crystal;polycrystal

Issue Date: 2022

Source: Viorica, M. (2022). ANALYSIS OF TWO APPROACHES TO DETERMINING THE ELASTICITY CONSTANTS OF POLYCRYSTALLINE MATERIALS. Scientific Collection «InterConf», (107), 461–468. Retrieved from https://archive.interconf.center/index.php/conference-proceeding/article/view/289

Conference: InterConf

Abstract:
The article compares the results deriving from the relations of transition from microtensions and deformations to macrotensions and deformations proposed by E. Kroner with the respective relations obtained within the structural model built on the basis of Hill relations and principles: average connections; orthoganality of stress and strain tensor fluctuations; the extreme discrepancy of the macroscopic measure with the mean value of the appropriate microscopic analog. It is shown that the macroscopic shear modulus obtained in E.Kroner's model is greater than or equal to the respective value obtained in V.Marina's model. An inequality between the anisotropy coefficient of the cubic lattice of polycrystalline materials and Poisson's ratio is established. Relations are analyzed by which objective macroscopic measures of the energy of volume and shape change in the field of reversible stresses are determined.

URI: http://cris.utm.md/handle/5014/2010

ISBN: 978-0-216-01072-7

Appears in Collections: Proceedings Papers

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Title:	ANALYSIS OF TWO APPROACHES TO DETERMINING THE ELASTICITY CONSTANTS OF POLYCRYSTALLINE MATERIALS
Authors:	MARINA, Viorica
Keywords:	stress;strain;anisotropy;structural model;crystal;polycrystal
Issue Date:	2022
Source:	Viorica, M. (2022). ANALYSIS OF TWO APPROACHES TO DETERMINING THE ELASTICITY CONSTANTS OF POLYCRYSTALLINE MATERIALS. Scientific Collection «InterConf», (107), 461–468. Retrieved from https://archive.interconf.center/index.php/conference-proceeding/article/view/289
Conference:	InterConf
Abstract:	The article compares the results deriving from the relations of transition from microtensions and deformations to macrotensions and deformations proposed by E. Kroner with the respective relations obtained within the structural model built on the basis of Hill relations and principles: average connections; orthoganality of stress and strain tensor fluctuations; the extreme discrepancy of the macroscopic measure with the mean value of the appropriate microscopic analog. It is shown that the macroscopic shear modulus obtained in E.Kroner's model is greater than or equal to the respective value obtained in V.Marina's model. An inequality between the anisotropy coefficient of the cubic lattice of polycrystalline materials and Poisson's ratio is established. Relations are analyzed by which objective macroscopic measures of the energy of volume and shape change in the field of reversible stresses are determined.
URI:	http://cris.utm.md/handle/5014/2010
ISBN:	978-0-216-01072-7
Appears in Collections:	Proceedings Papers

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