Condition monitoring approaches applied to a polychloroprene cable jacketing material

In this paper we examine the utility of several promising material condition monitoring (CM) techniques applied to a commercial polychloroprene cable jacketing material used in nuclear power plant applications. These include two relatively unknown approaches, cross-sectional modulus profiling and NMR T-2 relaxation time measurements of solvent-swelled samples, as well as three more commonly used approaches, density, gel fraction and solvent uptake. The results from each approach were compared to tensile elongation measurements, the usual standard approach for monitoring degradation of elastomers. Degradation was carried out at three temperatures and at four combined radiation plus thermal environments, all of which were selected (by theoretical modeling and later confirmed by cross-sectional degradation mapping) such that oxidation proceeded uniformly throughout the cross-section of the material. This allowed macroscopic condition monitoring measurements to be made in the absence of anomalous diffusion-limited oxidation effects. Of the techniques examined, modulus profiling, solvent uptake and NNIR T-2 measurements correlated extremely well with the elongation measurements and therefore showed substantial potential as CM approaches for this material. This is not unexpected since all of these techniques are sensitive to crosslinking of the material and the deterioration of the elongation is itself dominated by material hardening and thus by crosslinking. Published by Elsevier Ltd.