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IEEE Transactions on Electrical Insulation

Issue 1 • March 1972

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Displaying Results 1 - 13 of 13
  • Table of contents

    Publication Year: 1972, Page(s): c1
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  • IEEE Electrical Insulation Group

    Publication Year: 1972, Page(s): c2
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  • Field of Interest

    Publication Year: 1972, Page(s): 1
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  • Editorial

    Publication Year: 1972, Page(s): 2
    Cited by:  Papers (1)
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  • Effect of Pulse Rise Time on the Response of Corona Detectors

    Publication Year: 1972, Page(s):3 - 8
    Cited by:  Papers (36)
    Request permission for commercial reuse | Click to expandAbstract | PDF file iconPDF (4543 KB)

    The response of RCL corona-pulse detectors is investigated as a function of the calibration-pulse rise time. Excitationpulse rise times ranging from 0.05-50 ¿s are employed and the resulting signal response waveform and magnitude are recorded. The peak response is found to diminish appreciably with the rise time for values in excess of 1.0 ¿s; significant response waveform changes are manifest w... View full abstract»

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  • Pulsed Flashover of Insulators in Vacuum

    Publication Year: 1972, Page(s):9 - 15
    Cited by:  Papers (106)
    Request permission for commercial reuse | Click to expandAbstract | PDF file iconPDF (1495 KB)

    Dielectric specimens in the shape of a frustum of a cone were evaluated for surface flashover strength in vacuum of 10-5 torr. Data were obtained for positive and negative pulses of several hundred kilovolts amplitude and with rise times in the nanosecond and microsecond region. The results indicate that most materials exhibit a greater resistance to breakdown if the base of the cone is at the cat... View full abstract»

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  • A Standardized Procedure for Evaluating the Relative Thermal Life and Temperature Rating of Thin-Wall Airframe Wire Insulation

    Publication Year: 1972, Page(s):16 - 25
    Cited by:  Papers (1)
    Request permission for commercial reuse | Click to expandAbstract | PDF file iconPDF (3648 KB)

    The need for a standard procedure for evaluating the relative thermal life and temperature rating of new thin-wall general-purpose aircraft wire insulation is presented from the point of view of the aircraft manufacturer. Problems relative to safety considerations, cost, expected life, temperature rating, and the confusion resulting from the lack of standard test procedures are presented and discu... View full abstract»

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  • The Contribution of Differential Thermal Analysis to the Estimation of Thermal Endurance of Insulation

    Publication Year: 1972, Page(s):25 - 32
    Cited by:  Papers (10)
    Request permission for commercial reuse | Click to expandAbstract | PDF file iconPDF (1229 KB)

    The equations governing the thermal degradation of electrical insulation and those governing the shape of a thermogram have been combined to give that of the required life line. The numerical solution has been shown to require an empirical correlation between the physical properties involved. In the case of thermogravimetric analysis (TGA), weight loss can be correlated with electric strength (the... View full abstract»

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  • The Use of Thermogravimetric Analysis as a Rapid Screening Test for Large Numbers of Experimental Insulations

    Publication Year: 1972, Page(s):32 - 36
    Cited by:  Papers (5)
    Request permission for commercial reuse | Click to expandAbstract | PDF file iconPDF (1005 KB)

    A method has been devised for rapidly determining the thermal stability of polymers. It is based upon a previously described thermogravimetric method for predicting the thermal ratings of wire enamels. By using only one thermogram per sample and at a standard heating rate, determining the activation energy, and assuming a 50-percent weight-loss failure criterion, the approximate thermal rating is ... View full abstract»

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  • Analysis of Accelerated Life Test Data - Part II: Numerical Methods and Test Planning

    Publication Year: 1972, Page(s):36 - 55
    Cited by:  Papers (15)
    Request permission for commercial reuse | Click to expandAbstract | PDF file iconPDF (3910 KB)

    This is Part II of a three-part series presenting statistical methods for planning and analyzing temperature-accelerated life tests with the Arrhenius model, when all test units are run to failure. These methods are presented so they can be profitably used by individuals with a limited statistical background. In Part I, the Arrhenius model is described and graphical methods for analysis of such da... View full abstract»

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  • Contributors

    Publication Year: 1972, Page(s): 56
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  • Editorial policies and criteria

    Publication Year: 1972, Page(s): 56-a
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  • Information for authors

    Publication Year: 1972, Page(s): 56b
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Aims & Scope

This Transactions ceased production in 1993. The current retitled publication is  IEEE Transactions on Dielectrics and Electrical Insulation.

Full Aims & Scope