Effect of the melt flow direction on the treeing process in polymeric insulation

Abstract: UDC 678:621.315.61 V. A. Volokhin, O. S. Gefle, and S. M. LebedevThis paper presents the results of a study of the effect of the residual mechanical stress formed in solid polymers at the stage of production on the initiation and growth of an electrical tree. It is shown that the time to tree initiation and the time to breakdown of polycarbonate samples can be determined from the results of investigation of treeing parameters.Introduction. One of the main factors responsible for the failure of high-voltage pol… Show more

“…The conclusions of [51] are in qualitative agreement with those of [43]. The conclusions of [51] were confirmed with polycarbonate samples in a later publication [52], where it was pointed out that the melt flow directions and the fringe patterns may influence the direction and propagation of electrical trees. An indirect evidence of the above is offered in [53], where an investigation of the electrical trees in outer and inner layers of different voltage rating XLPE cable insulation indicated that the growth rate of electrical trees in a 66 kV cable is much larger than that in the higher voltage rating cables.…”

Propagation of Electrical Trees under the Influence of Mechanical Stresses: A Short Review

“…The conclusions of [51] are in qualitative agreement with those of [43]. The conclusions of [51] were confirmed with polycarbonate samples in a later publication [52], where it was pointed out that the melt flow directions and the fringe patterns may influence the direction and propagation of electrical trees. An indirect evidence of the above is offered in [53], where an investigation of the electrical trees in outer and inner layers of different voltage rating XLPE cable insulation indicated that the growth rate of electrical trees in a 66 kV cable is much larger than that in the higher voltage rating cables.…”

Propagation of Electrical Trees under the Influence of Mechanical Stresses: A Short Review

“…Properties of thermoplastic polymers can be changed in wide range not only depending on the type, chemical structure, and sub-molecular structure but also processing parameters [1][2][3][4][5][6][7]. When polymers are under a high temperature for a long time, the destruction or oxidation of macromolecules will take place.…”

“…In doing so, incorrect choice of the processing parameters can result in the deterioration of mechanical and electrical properties of polymeric products. For example, temperature, exposure time of a polymer under the melt and the cooling rate are the most significant factors at production of large-size insulation products by quasi-isothermal method [2,3]. At the processing of polymers by the injection molding such factors are temperature, pressure, and cooling rate [7].…”

“…Therefore the control of the processing parameters is necessary on the stage of the development of new processing technology or new types of products. It is especially important for HV insulators in which thermoplastic materials should possess not only the high mechanical strength but also the treeing resistance [2,3,6]. The study of the influence of the processing parameters on the treeing process parameters in polymeric insulation was the aim of this work.…”

Treeing resistance parameters of polymeric dielectrics