Transverse Tensile, Compression and In-Plane Shear Behaviors of Zylon Fiber-Reinforced Polymer

Transverse Tensile, Compression and In-Plane Shear Behaviors of Zylon Fiber-Reinforced Polymer

The Zylon fiber-reinforced polymer (ZFRP) reinforcements of pulsed magnets often manifest transverse and shearing failure modes under ultrahigh magnetic fields, resulting in unintended disruptions of the magnet system. Nevertheless, the transverse tensile, compression, and in-plane shear behaviors o...

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Veröffentlicht in:IEEE transactions on applied superconductivity 2024-08, Vol.34 (5), p.1-5
Hauptverfasser: Chen, S. Y., Peng, T., Han, X. T., Cao, Q. L., Xiao, H. X., Li, W. Z., Li, L.
Format: Artikel
Sprache:eng
Schlagworte:
Behavioral sciences
Failure mechanisms
Failure modes
Fiber reinforced polymers
Forming techniques
High magnetic field
Laminates
Magnetomechanical effects
Magnets
Mechanical tests
Modulus of elasticity
Optical fiber dispersion
Optical fiber testing
pulsed magnet
reinforcement
Shear tests
Shearing
Strain
Superconducting magnets
Temperature measurement
Zylon fiber
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Beschreibung
Zusammenfassung:The Zylon fiber-reinforced polymer (ZFRP) reinforcements of pulsed magnets often manifest transverse and shearing failure modes under ultrahigh magnetic fields, resulting in unintended disruptions of the magnet system. Nevertheless, the transverse tensile, compression, and in-plane shear behaviors of ZFRP remain insufficiently understood, impeding efforts to elucidate the underlying failure mechanisms and enhance magnet performance. To address this knowledge gap, this paper undertook a comprehensive mechanical tests of ZFRP. Specimen were fabricated using the autoclave-forming technique, followed by transverse tensile, compression and in-plane shear tests conducted at 213 K, 243 K, and 296 K. The elastic modulus and stress-strain response were both characterized, and the influence of the fiber-filling factor were also discussed.
ISSN:1051-8223
1558-2515
DOI:10.1109/TASC.2023.3333264