Influence of residual chlorine and pressure on degradation of polybutylene pipe

In this paper, we report a novel technique that enabled us to easily and effectively conduct an accelerated degradation test on a small pressure vessel for potable and hot water pipes. Accelerated degradation tests were carried out on polybutene (PB) pipes with and without pressurization, under chlo...

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Bibliographic Details
Published in:Polymer degradation and stability 2019-09, Vol.167, p.1-9
Main Authors: Fujii, Takehiro, Matsui, Yuichi, Hirabayashi, Hideo, Igawa, Kazuhisa, Okada, Saori, Honma, Hidekazu, Nishimura, Hiroyuki, Yamada, Kazushi
Format: Article
Language:English
Subjects:
Accelerated degradation test
Accelerated tests
Antioxidants
Chemiluminescence
Chlorine
Degradation
Drinking water
Fourier transforms
Infrared imaging
Infrared spectroscopy
Mechanical properties
Organic chemistry
Oxidation
Pipes
Polybutylene
Pressure
Pressure vessels
Pressurization
Residual chlorine
Water pipelines
Water pressure
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Summary:In this paper, we report a novel technique that enabled us to easily and effectively conduct an accelerated degradation test on a small pressure vessel for potable and hot water pipes. Accelerated degradation tests were carried out on polybutene (PB) pipes with and without pressurization, under chlorinated and non-chlorinated water at 80 °C; the higher-order structure changes, residual antioxidant agents, and degradation characteristics of the PB pipes were evaluated. In the degradation test under chlorine water, the isothermal oxidation induction time (I-OIT) time and the mechanical properties decreased with increasing aging time. Additionally, micro- Fourier transform infrared spectroscopy (FT-IR) imaging revealed the distribution of antioxidants in the PB pipe before and after the test, while in the degradation test under pressure, the residual amount of antioxidants was smaller, and the chemiluminescence intensity was higher compared with the test that was not pressurized. These results strongly suggest that not only dissolved chlorine but also water pressure contribute to promoting the degradation of plastic pipes, and that the simple pressure vessels allow the safe and easy testing of accelerated degradation. •Accelerated degradation tests were conducted for Polybutylene pipe.•Influence of residual chlorine and pressure on degradation of polybutylene pipe are examined.•The degradation of the PB pipe was promoted by chlorine derivatives.•The degradation of the PB pipe was accelerated due to decreasing amount of the antioxidant even under water pressure.
ISSN:0141-3910
1873-2321
DOI:10.1016/j.polymdegradstab.2019.06.012