Effect of thermomechanical impacts on the deformation of thin polyimide films at uniaxial tension

Abstract

Thermomechanical studies of the dependence of deformation (ϵ) on time (t) and temperature (T) for various static stresses in polyimide under uniaxial tension were carried out. Temporal deformation curves for static stresses in the range from 75 to 110 MPa consist of two stages: 1 - increase; 2 - exit to saturation, which is associated with a change in the nature of structural transformations of macromolecules, due to the action of the static stresses. An increase in temperature and voltage leads to an increase in the dependence ϵ (T). This is due to the intensification of the processes of structuring macromolecules with increasing temperature and are supplemented by processes of breaking bonds between macromolecules, which increase the strain rate. Experimental data are described in terms of exponential and linear models.

Original language	English
Article number	012012
Journal	IOP Conference Series: Materials Science and Engineering
Volume	754
Issue number	1
DOIs	https://doi.org/10.1088/1757-899X/754/1/012012
Publication status	Published - 7 Feb 2020
Event	8th International Conference for Young Scientists on High Technology: Research and Applications, HTRA 2019 - Tomsk, Russian Federation Duration: 30 Sep 2019 → 5 Oct 2019

ASJC Scopus subject areas

Materials Science(all)
Engineering(all)

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10.1088/1757-899X/754/1/012012

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Kupchishin, A. I., Taipova, B. G., Niyazov, M. N., Lisitsyn, V. M., & Voronova, N. A. (2020). Effect of thermomechanical impacts on the deformation of thin polyimide films at uniaxial tension. IOP Conference Series: Materials Science and Engineering, 754(1), [012012]. https://doi.org/10.1088/1757-899X/754/1/012012

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title = "Effect of thermomechanical impacts on the deformation of thin polyimide films at uniaxial tension",

abstract = "Thermomechanical studies of the dependence of deformation (ϵ) on time (t) and temperature (T) for various static stresses in polyimide under uniaxial tension were carried out. Temporal deformation curves for static stresses in the range from 75 to 110 MPa consist of two stages: 1 - increase; 2 - exit to saturation, which is associated with a change in the nature of structural transformations of macromolecules, due to the action of the static stresses. An increase in temperature and voltage leads to an increase in the dependence ϵ (T). This is due to the intensification of the processes of structuring macromolecules with increasing temperature and are supplemented by processes of breaking bonds between macromolecules, which increase the strain rate. Experimental data are described in terms of exponential and linear models.",

author = "Kupchishin, {A. I.} and Taipova, {B. G.} and Niyazov, {M. N.} and Lisitsyn, {V. M.} and Voronova, {N. A.}",

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doi = "10.1088/1757-899X/754/1/012012",

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T1 - Effect of thermomechanical impacts on the deformation of thin polyimide films at uniaxial tension

AU - Kupchishin, A. I.

AU - Taipova, B. G.

AU - Niyazov, M. N.

AU - Lisitsyn, V. M.

AU - Voronova, N. A.

PY - 2020/2/7

Y1 - 2020/2/7

N2 - Thermomechanical studies of the dependence of deformation (ϵ) on time (t) and temperature (T) for various static stresses in polyimide under uniaxial tension were carried out. Temporal deformation curves for static stresses in the range from 75 to 110 MPa consist of two stages: 1 - increase; 2 - exit to saturation, which is associated with a change in the nature of structural transformations of macromolecules, due to the action of the static stresses. An increase in temperature and voltage leads to an increase in the dependence ϵ (T). This is due to the intensification of the processes of structuring macromolecules with increasing temperature and are supplemented by processes of breaking bonds between macromolecules, which increase the strain rate. Experimental data are described in terms of exponential and linear models.

AB - Thermomechanical studies of the dependence of deformation (ϵ) on time (t) and temperature (T) for various static stresses in polyimide under uniaxial tension were carried out. Temporal deformation curves for static stresses in the range from 75 to 110 MPa consist of two stages: 1 - increase; 2 - exit to saturation, which is associated with a change in the nature of structural transformations of macromolecules, due to the action of the static stresses. An increase in temperature and voltage leads to an increase in the dependence ϵ (T). This is due to the intensification of the processes of structuring macromolecules with increasing temperature and are supplemented by processes of breaking bonds between macromolecules, which increase the strain rate. Experimental data are described in terms of exponential and linear models.

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