Affiliation:
1. Harbin Institute of Technology
2. Harbin Engineering University
Abstract
In the present paper, butadiene rubber is analyzed. The activation energy variation of butadiene rubber material has been studied and found that non-Arrhenius behavior. On this basis, the life prediction model of the rubber sealing material has been established, in which the activation energy is the characterization parameters. The storage lifetime of the conducted rubber seal material has been calculated. Under the same conditions, the storage lifetime are 7 years, while according to the GB the storage life are 20.25 years, with comparing the actual storage of the material life of 3-5 years, could prove more accurate modeling and prediction methods established in this study. This would provide a theoretical basis for more accurate life prediction of rubbers.
Publisher
Trans Tech Publications, Ltd.
Reference8 articles.
1. Gillen KT, Celina M, Bernstein R. Review of the ultrasensitive oxygen consumption method for making more reliable extrapolated predictions of polymer lifetimes. Ann Tech Conf Soc Plast Eng 2004, 62: 2289.
2. Gillen KT, Bernstein R, Celina M. Non-Arrhenius behaviour for oxidative degradation of chlorosulfonated polyethylene materials. Polym Degrad Stab 2005, 87: 335.
3. Celina M., Gillen K. T., Assink R. A. Accelerated aging and lifetime prediction: Review of non-Arrhenius behaviour due to two competing processes [J]. Polymer Degradation and Stability. 2005, 90: 395-404.
4. Richters P. Initiation process in the oxidation of polypropylene. Macromolecules 1970, 3: 262.
5. Gugumus F. The use of accelerated tests in the evaluation of antioxidants and light stabilizers. In: Scott G, editor. Developments in polymer stabilizationd-8. London: Elsevier Applied Science; (1987).
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