Evaluation of sealability for aged rubber seals by spin–spin relaxation time

This paper presents the applicability of proton spin–spin relaxation time, T2, for the evaluation of the degradation of sealability for rubber seals. So far, compression set (CS) has been utilized to evaluate the degree of degradation of rubber seals. However, the reliability of CS for thin rubber s...

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Veröffentlicht in:	Polymer testing 2016-02, Vol.49, p.147-155
Hauptverfasser:	Numata, Kaori, Kurokawa, Hideto, Kawaguchi, Shinobu, Sekine, Sokei, Nakazawa, Yasumoto, Asano, Atsushi
Format:	Artikel
Sprache:	eng
Schlagworte:	Compression set Correlation Cross-link density Crosslinking Degradation Density Lifetime assessment Plasticizer concentration Pulse NMR Quantitative evaluation Relaxation time Rubber Seals Thermal aging
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creator	Numata, Kaori Kurokawa, Hideto Kawaguchi, Shinobu Sekine, Sokei Nakazawa, Yasumoto Asano, Atsushi
description	This paper presents the applicability of proton spin–spin relaxation time, T2, for the evaluation of the degradation of sealability for rubber seals. So far, compression set (CS) has been utilized to evaluate the degree of degradation of rubber seals. However, the reliability of CS for thin rubber seals is relatively low. Therefore, in this paper, we investigated the applicability of T2 as a parameter for the quantitative evaluation of the degradation of sealability instead of CS. The correlations between T2 and cross-link density, plasticizer concentration and CS for two acrylonitrile butadiene rubber (NBR) samples were discussed. The samples have different compounds and shapes: plate and O-ring. We exposed them to air and nitrogen atmospheres at high temperatures of 60, 80 and 100 °C for up to 33,000 h. The short spin–spin relaxation time, T2S, was shortened with aging and correlated well with the cross-link density, plasticizer concentration and CS, regardless of the atmosphere. These results revealed that T2S is a useful parameter for the quantitative evaluation of the degradation of sealability.
doi_str_mv	10.1016/j.polymertesting.2015.11.005
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subjects	Compression set Correlation Cross-link density Crosslinking Degradation Density Lifetime assessment Plasticizer concentration Pulse NMR Quantitative evaluation Relaxation time Rubber Seals Thermal aging
title	Evaluation of sealability for aged rubber seals by spin–spin relaxation time
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