A Study on the Properties of CSPE According to Accelerated Thermal Aging Years

The accelerated theimal aging of CSPE (chlorosulfonated polyethylene) was carried out for 40.41, 121.22, and 202.04 days at 100 degrees C, which are equivalent to 20, 60, and 100years of aging at 50 C, respectively. The volume electrical resistivities of the accelerated thermally aged CSPE samples for 0, 40.41, 121.22, and 202.04 days were 1.10(7)x10(14)-2.097x 1, _tu 47.752x10(13)-1.556x 0114, 7.693x 10(13)-1.521 x10(14), and 7.380 x 10(13)-1.304x 10(14)Omega.cm, respectively, at room temperature. The permittivities of the accelerated thermally aged CSPE samples for 0, 40.41, 121.22, and 202.04 days were 2.89x10(-11) 3.65x10(-11), 3.40x10(-11) 3.70x10(41), 3.50x. 3.82x10-11, and 3.76x10(-1)1 4.13x10u F/m, respectively, at room temperature. The EAB (elongation at break) of the accelerated thermally aged CSPE samples for 0, 40.41, 121.22, and 202.04 days were 98.8-101.3, 59.5-60.3, 37.8-39.2, and 41.8-44.3%, respectively, at room temperature. The apparent densities of the accelerated thermally aged CSPE samples for 0, 40.41, 121.22, and 202.04 days were 1.603-1.614, 1.611-1.613, 1.622 1.628, and 1.618-1.620g/cm(3), respectively, at room temperature. The measured currents of the accelerated thermally aged CSPE and the standard sample were almost constant after 5 min of applying a 300-V/mm electric field to the CSPE. The V-I slope of the accelerated thermally aged CSPE sample was increased if the applied electric field was increased at room temperature, and the V-I slope of the accelerated thermally aged CSPE was higher than that of standard CSPE.