Title :
Electrochemical treeing in XLPE/silica nanocomposites
Author :
Hui, L. ; Smith, R. ; Nelson, J.K. ; Schadler, L.S.
Author_Institution :
Rensselaer Polytech. Inst., Troy, NY, USA
Abstract :
Ashcraft-type samples have been used to grow vented water trees in crosslinked polyethylene and crosslinked polyethylene based nanocomposites with 5 wt% and 12.5 wt% functionalized silica. Tree growths are reported at a range of stresses by sectioning the samples destructively. A nondestructive method is also introduced which allows visualization of electrochemical trees without sectioning. Nanocomposites are found to have higher resistance to water tree growth and this trend becomes clear with larger loading. Due to the high interface/volume ratio in nanocomposites, it is believed that scattering in the interfacial region inhibits tree growth.
Keywords :
cable insulation; electrochemistry; filled polymers; nanocomposites; nondestructive testing; silicon compounds; trees (electrical); SiO2; XLPE-silica nanocomposites; cable insulation; crosslinked polyethylene; electrochemical tree visualization; electrochemical treeing; nondestructive method; resistance; stresses; vented water trees; water tree growth; Dielectrics; Moisture; Nanocomposites; Needles; Plastics; Polyethylene; Resins; Silicon compounds; Temperature; Trees - insulation;
Conference_Titel :
Electrical Insulation and Dielectric Phenomena, 2009. CEIDP '09. IEEE Conference on
Conference_Location :
Virginia Beach, VA
Print_ISBN :
978-1-4244-4557-8
Electronic_ISBN :
0084-9162
DOI :
10.1109/CEIDP.2009.5377858
