Search Results - "Pelissou, S."

Nanostructured polymer microcomposites: A distinct class of insulating materials by Frechette, M.F., Larocque, R.Y., Trudeau, M., Veillette, R., Rioux, R., Pelissou, S., Besner, S., Javan, M., Cole, K., That, M.-T.T., Desgagnes, D., Castellon, J., Agnel, S., Toureille, A., Platbrood, G.

“…Experimental evidence was produced and gathered to demonstrate the distinct nature of nanostructured polymer microcomposites. The case of a polymer composite…”
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Diffusion of blocked strand material in the insulation of extruded cables by Pelissou, S., St-Antoine, S., Savage, R.

“…This paper presents results on the impurity content of the insulation and shield of medium voltage extruded cables having a blocked strand material, before and…”
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Underground Medium-Voltage Cable Rejuvenation-Part I: Laboratory Tests on Cables by Pelissou, S., Lessard, G.

“…This paper, the first of three parts, deals with the penetration depth and concentration of silicone fluid in cable insulation and its duration when injected…”
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Dielectric properties of XLPE/Sio2 nanocomposites based on CIGRE WG D1.24 cooperative test results by Tanaka, T., Bulinski, A., Castellon, J., Frechette, M., Gubanski, S., Kindersberger, J., Montanari, G. C., Nagao, M., Morshuis, P., Tanaka, Y., Pelissou, S., Vaughan, A., Ohki, Y., Reed, C. W., Sutton, S., Han, S. J.

“…A comprehensive experimental investigation of XLPE and its nanocomposite with fumed silica (SiO 2 ) has been performed by CIGRE Working Group D1.24, in…”
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Underground Medium-Voltage Cable Rejuvenation-Part II: Pilot Projects in the Field by Pelissou, S., St. Antoine, Serge

“…The present study, the second of three parts, deals with pilot projects performed on the rejuvenation of 28-kV extruded cables. Thirteen triplexed XLPE cable…”
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Underground Medium-Voltage Cable Rejuvenation-Part III: Influence of Operating and Emergency Conditions by Pelissou, S., Chinh Dang, St.-Antoine, S.

“…The present study, the last of three parts, deals with the testing of three solutions for the blocking of cable-ends of silicone injected cables on an…”
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Impurities in XLPE cable resins by Pelissou, S.

“…This paper presents results on an impurity analysis of various insulation and semiconducting shield resins made by four manufacturers and used for power…”
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Electrical properties of metallocene polyethylene by Pelissou, S., Benca, P., Gross, L.H.

“…In this paper, the electrical properties of four metallocene-catalyzed polyethylenes (LDPE-m) are compared with those of a conventional high-pressure…”
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Effect of water on the performance of XLPE insulation by Pelissou, S.

“…Water-tree counting measurements, water and impurity content measurements, and AC breakdown tests were performed on several field-aged medium-voltage extruded…”
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AC breakdown characteristics of in-service aged XLPE distribution cables by Bartnikas, R., Pelissou, S., St.-Onge, H.

“…AC breakdown tests were performed on field-aged XLPE distribution cables. For these measurements, a special test assembly consisting of air/distilled water…”
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Water content of XLPE cable insulation by Pelissou, S., Wintle, H.J.

“…The authors deal with water absorption and diffusion in various kinds of cross-linked polyethylene (XLPE) cable insulation: steam-cured, dry-cured, and with…”
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Influence of cable processing on the insulation impurity content by Pelissou, S., St.-Antoine, S.

“…One of the principal cause of the initiation and growth of water trees in extruded cable insulation is impurities. This paper presents results on a comparison…”
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Electrical conduction of polyethylene below and above its melting point by Pelissou, S., St-Onge, H., Wertheimer, M.R.

“…The electrical conduction of low-density polyethylene (LDPE) has been investigated between 20 degrees C and 150 degrees C and up to 1 MV/cm. Special molded…”
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Thermally stimulated currents (TSC) on new and field-aged underground cable material by Amyot, N., Pelissou, S.

“…Field-aged and unaged cable material have been investigated with the TSC technique. Two well defined relaxation modes have been observed for both materials:…”
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Final breakdown in field-aged XLPE by Pelissou, S., Noirhomme, B.

“…Water tree growth in field-aged cross-linked polyethylene (XLPE) was investigated. The tests were performed on 600- mu m-thick ribbons peeled off from a…”
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Influence of insulation morphology, impurities and oxidation on some electric properties of cables by Crine, J.-P., Pelissou, S., Parpal, J.-L.

“…It is shown that the AC breakdown strength and dielectric loss of unaged and field-aged transmission and distribution cables vary with insulation…”
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Final breakdown mechanism by Pelissou, S., Noirhomme, B., Parpal, J.-L.

“…Preliminary results on the final breakdown mechanism of XLPE (cross-linked polyethylene) insulated field-aged cables are presented. The main goal is to…”
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Dielectric study at microwave frequencies of halos in crosslinked polyethylene cable by Bose, T.K., Merabet, M., Crine, J.P., Pelissou, S.

“…The dielectric properties of halos in crosslinked polyethylene cable were studied using the method of time-domain reflectometry (TDR) between 1 MHz and 8 GHz…”
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A localized trace element analysis of water trees in XLPE cable insulation by micro-PIXE and EDX by Hinrichsen, P.F., Houdayer, A., Belhadfa, A., Crine, J.-P., Pelissou, S., Cholewa, M.

“…PIXE (proton-induced X-ray emission) with a focused proton beam of 30-or 220- mu m diameter and EDX (energy dispersive X-ray analysis) of water-trees in XLPE…”
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A critical evaluation of analytical. techniques for the characterization of extruded dielectric cables by Crine, J.-P., Pelissou, S., McNicoll, Y., St-Onge, H.

“…Various analytical techniques used to characterize cables are reviewed. It is shown that cable morphology can be evaluated simply by density and…”
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