Environmental stress cracking and crazing in polymers in terms of irreversible thermodynamics |
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Authors: | Hiroshi Okamoto Yoshihito Ohde |
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Affiliation: | Department of Engineering Sciences, Nagoya Institute of Technology, Gokisomachi, Shouwaku, Nagoya, 466, Japan |
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Abstract: | The processes in environmental stress cracking and crazing in polymers are analysed in terms of the irreversible thermodynamics. The thermodynamic potential of the system composed of the polymer matrix at a flaw tip region and its environmental liquid is constructed as a function of the concentration of the liquid migrated in the matrix and the dilative stress due to stress concentration. A state of the system is represented by a point in the thermodynamic potential diagram. The paths of the state shifts leading to failure in the diagram are governed by the shapes of the thermodynamic potential curves, the liquid concentrations giving the potentials a minimum, the critical concentration and the breakdown concentrations here introduced. Various kinetic data of environmental stress cracking in low density polyethylenes can be understood by the unified picture. The predictions of the theory are also consistent with the reported kinetic nature of crazing. |
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Keywords: | Mechanical behaviour environmental stress cracking crazing polyethylene irreversible thermodynamics failure kinetics crack growth |
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