1998
DOI: 10.1088/0022-3727/31/16/016
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Space charge characteristics in cross-linking polyethylene under electrical stress from dc to power frequency

Abstract: The space charge characteristics in cross-linking polyethylene (LPE) are investigated under various electrical stresses from dc to power frequency. The pulsed electro-acoustic method is improved to meet the needs of measurement under ac voltages. The frequency and phase angle dependences of the space charge are studied by means of phase-locking and frequency-converting techniques. Test results show that space charge can develop and accumulate in LPE under an ultralow frequency voltage. The critical frequency o… Show more

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Cited by 37 publications
(18 citation statements)
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“…Figure 7 shows the trap level distribution in LDPE and the nanocomposites. The trap levels for both LDPE and the nanocomposites are in the range 0.80-1.05 eV with a density peak around 0.94 eV, which can be regarded as deep trap levels in LDPE [44]. This is consistent very well with the results obtained by M. Ieda et al, who assigned the deep trap level in LDPE to be 0.92 eV [45].…”
Section: Stepwise Electric Field Induced Conduction Currentsupporting
confidence: 90%
“…Figure 7 shows the trap level distribution in LDPE and the nanocomposites. The trap levels for both LDPE and the nanocomposites are in the range 0.80-1.05 eV with a density peak around 0.94 eV, which can be regarded as deep trap levels in LDPE [44]. This is consistent very well with the results obtained by M. Ieda et al, who assigned the deep trap level in LDPE to be 0.92 eV [45].…”
Section: Stepwise Electric Field Induced Conduction Currentsupporting
confidence: 90%
“…The maximum stressing time in our experiments is 2 h and bulk space charge accumulation is clearly shown at a frequency of 10 Hz and a temperature of 50°C. Wang et al [18] reported a upper limit frequency of 20mHz for space charge accumulation in polyethylene. The present results are in some respect in accordance with this statement considering measurements at 25°C.…”
Section: Discussionmentioning
confidence: 99%
“…Typical results ob tained shown in Table 2 are as follows. Space charge formation caused by crosslinking agent residues [181 or additives [19], space charge accu mulation at the interface of two-layer materials [29,30,321, charge be havior near the field of electric breakdown [33][34][35], charge behavior in the material after electron-beam [36] and 'I-beam irradiation [37], space· charges in organic photoconductive materials used in electronic photo copy machines [38][39][40][41], also in print circuits [42] [47,48] are also reported. Furthermore, when the simultaneous measurement of thermally stimulated current (rse) and space charge distribution was developed, the displacement current due to the charge movement and the conductivity current were separated [51,52].…”
Section: Acous Tic Methodsmentioning
confidence: 99%