Kalkanis and Rosso (1989) present data generated from an accelerated life test performed on a special type of mylar-polyurethane insulation used in high-performance electro-magnets. The data give the time to dielectric breakdown of units tested at 100.3, 122.4, 157.1, 219.0, and 361.4 kV/mm. The purpose of the experiment was to evaluate the reliability of the insulating structure and to estimate the life distribution at system design voltages.
Kalkanis and Rosso (1989) present data generated from an accelerated life test performed on a special type of mylar-polyurethane insulation used in high-performance electro-magnets. The data give the time to dielectric breakdown of units tested at 100.3, 122.4, 157.1, 219.0, and 361.4 kV/mm. The purpose of the experiment was to evaluate the reliability of the insulating structure and to estimate the life distribution at system design voltages.
A data.frame
with 46 rows and 2 variables:
[, 1] | minutes | Time to dielectric breakdown | Numeric |
[, 2] | ratio | Electromagnetic field strength (in kV/mm) | Numeric |
A data.frame
with 46 rows and 2 variables:
[, 1] | minutes | Time to dielectric breakdown | Numeric |
[, 2] | ratio | Electromagnetic field strength (in kV/mm) | Numeric |
Kalkanis, G., and Rosso, E. (1989), The inverse power law model for the lifetime of a mylar-polyurethane laminated DC HV insulating structure, Nuclear Instruments and Methods in Physics Research, A281, 489-496.
Kalkanis, G., and Rosso, E. (1989), The inverse power law model for the lifetime of a mylar-polyurethane laminated DC HV insulating structure, Nuclear Instruments and Methods in Physics Research, A281, 489-496.
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