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THE MECHANISM OF FRICTIONAL MOTION AND ITS EFFECTS AT 4.2 K IN SUPERCONDUCTING MAGNET WINDING MODELS.

Author(s) : MAEDA H., TSUKAMOTO O., IWASA Y.

Type of article: Article

Summary

THE MECHANISMS OF SLIDING MOTION AND ITS EFFECTS AT 4.2 K WERE STUDIED IN DETAIL FOR A NUMBER OF METAL/INSULATOR PAIRS THAT MODEL SUPERCONDUCTING MAGNET WINDINGS ; THE RESULTS IMPACT THE PERFORMANCE OF SUPERCONDUCTING MAGNETS. ORGANIC SURFACE COATING MATERIALS ARE GENERALLY EFFECTIVE IN ELIMINATING MACROSCOPIC INSTABILITIES. INSTRUMENTATION USED IN THESE EXPERIMENTS INCLUDES A HIGH-RESOLUTION EXTENSOMETER AND AN ACOUSTIC EMISSION SENSOR, BOTH WITH SENSITIVITIES CAPABLE OF DETECTING MICROSLIPS (ABOUT 1 MICROMETER).

Details

  • Original title: THE MECHANISM OF FRICTIONAL MOTION AND ITS EFFECTS AT 4.2 K IN SUPERCONDUCTING MAGNET WINDING MODELS.
  • Record ID : 1983-0412
  • Languages: English
  • Source: Cryogenics - vol. 22 - n. 6
  • Publication date: 1982

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