The correlation between elongation at break and thermal decomposition of aged EPDM cable polymer

The correlation between elongation at break and thermal decomposition of aged EPDM cable polymer

The effect of simultaneous thermal and gamma irradiation ageing on the mechanical and physicochemical properties of industrial EPDM was investigated. Accelerated ageing, covering a wide range of dose rates, doses and temperatures, was preformed in stagnant air on EPDM polymer samples extracted from...

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Bibliographic Details
Published in:Radiation physics and chemistry (Oxford, England : 1993) Vol. 132; pp. 8 - 12
Main Authors: Šarac, T., Devaux, J., Quiévy, N., Gusarov, A., Konstantinović, M.J.
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 01-03-2017
Elsevier BV
Subjects:
Ageing
Cables
Decomposition
Dosage
Electric power plants
Elongation
EPDM
Gamma irradiation
Gamma rays
Mechanical properties
Nuclear electric power generation
Nuclear power plants
Oxidation
Polymers
Tensile stress
Thermal decomposition
Thermogravimetry
Mechanical properties
Gamma irradiation
EPDM
Ageing
Thermogravimetry
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Summary:The effect of simultaneous thermal and gamma irradiation ageing on the mechanical and physicochemical properties of industrial EPDM was investigated. Accelerated ageing, covering a wide range of dose rates, doses and temperatures, was preformed in stagnant air on EPDM polymer samples extracted from the cables in use in the Belgian nuclear power plants. The mechanical properties, ultimate tensile stress and elongation at break, are found to exhibit the strong dependence on the dose, ageing temperature and dose rate. The thermal decomposition of aged polymer is observed to be the dose dependent when thermogravimetry test is performed under air atmosphere. No dose dependence is observed when thermal decomposition is performed under nitrogen atmosphere. The thermal decomposition rates are found to fully mimic the reduction of elongation at break for all dose rates and ageing temperatures. This effect is argued to be the result of thermal and radiation mediated oxidation degradation process. •EPDM is aged in a wide range of dose rates and temperatures.•Tensile and thermogravimetry test were performed.•Mechanical parameters are strongly affected by irradiation dose and temperature.•Direct link between the mechanical and physicochemical properties is provided.•Thermal and radiation mediated oxidation degradation is considered to be important.
ISSN:0969-806X
1879-0895
DOI:10.1016/j.radphyschem.2016.10.017