Internal Strain and Mechanical Properties at Low Temperatures of Surround Cu Stabilized YBCO Coated Conductor

The mechanical properties of surround Cu stabilized YBCO coated conductor were assessed at 5.7, 77 and 298 K. The internal strain exerted on the superconducting YBCO layer was directly evaluated under tensile load at low temperatures down to 9.8 K by neutron diffraction techniques. The compressive i...

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Veröffentlicht in:	IEEE transactions on applied superconductivity 2010-06, Vol.20 (3), p.1532-1536
Hauptverfasser:	Osamura, Kozo, Machiya, Shutaro, Tsuchiya, Yoshihiro, Suzuki, Hiroshi
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Capacitive sensors COATINGS Conductors Conductors (devices) Copper COPPER OXIDE Critical current Diffraction Electric connection. Cables. Wiring Electrical engineering. Electrical power engineering Electromagnets Exact sciences and technology internal strain Mechanical factors MECHANICAL PROPERTIES NEUTRON DIFFRACTION Neutrons PROPERTIES STRAIN Superconducting epitaxial layers SUPERCONDUCTIVITY SUPERCONDUCTORS Temperature dependence Tensile strain TENSILE STRESS Thermal loading Various equipment and components YBCO coated conductor YBCO superconductors Yttrium barium copper oxide
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creator	Osamura, Kozo Machiya, Shutaro Tsuchiya, Yoshihiro Suzuki, Hiroshi
description	The mechanical properties of surround Cu stabilized YBCO coated conductor were assessed at 5.7, 77 and 298 K. The internal strain exerted on the superconducting YBCO layer was directly evaluated under tensile load at low temperatures down to 9.8 K by neutron diffraction techniques. The compressive internal strain, present in the YBCO layer without external load, is the thermally induced residual strain. When the external tensile load was applied, the compressive component of internal strain decreased and changed into tensile. The force-free strain, A ff , was determined as the strain at which the internal strain becomes zero. The estimated from (200) diffraction data depended weakly on temperatures between 298 and 9.8 K. However, the estimated from (020) data decreased prominently with decreasing temperature.
doi_str_mv	10.1109/TASC.2010.2042437
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The internal strain exerted on the superconducting YBCO layer was directly evaluated under tensile load at low temperatures down to 9.8 K by neutron diffraction techniques. The compressive internal strain, present in the YBCO layer without external load, is the thermally induced residual strain. When the external tensile load was applied, the compressive component of internal strain decreased and changed into tensile. The force-free strain, A ff , was determined as the strain at which the internal strain becomes zero. The estimated from (200) diffraction data depended weakly on temperatures between 298 and 9.8 K. 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Electrical power engineering ; Electromagnets ; Exact sciences and technology ; internal strain ; Mechanical factors ; MECHANICAL PROPERTIES ; NEUTRON DIFFRACTION ; Neutrons ; PROPERTIES ; STRAIN ; Superconducting epitaxial layers ; SUPERCONDUCTIVITY ; SUPERCONDUCTORS ; Temperature dependence ; Tensile strain ; TENSILE STRESS ; Thermal loading ; Various equipment and components ; YBCO coated conductor ; YBCO superconductors ; Yttrium barium copper oxide</subject><ispartof>IEEE transactions on applied superconductivity, 2010-06, Vol.20 (3), p.1532-1536</ispartof><rights>2015 INIST-CNRS</rights><rights>Copyright The Institute of Electrical and Electronics Engineers, Inc. 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The internal strain exerted on the superconducting YBCO layer was directly evaluated under tensile load at low temperatures down to 9.8 K by neutron diffraction techniques. The compressive internal strain, present in the YBCO layer without external load, is the thermally induced residual strain. When the external tensile load was applied, the compressive component of internal strain decreased and changed into tensile. The force-free strain, A ff , was determined as the strain at which the internal strain becomes zero. The estimated from (200) diffraction data depended weakly on temperatures between 298 and 9.8 K. 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The internal strain exerted on the superconducting YBCO layer was directly evaluated under tensile load at low temperatures down to 9.8 K by neutron diffraction techniques. The compressive internal strain, present in the YBCO layer without external load, is the thermally induced residual strain. When the external tensile load was applied, the compressive component of internal strain decreased and changed into tensile. The force-free strain, A ff , was determined as the strain at which the internal strain becomes zero. The estimated from (200) diffraction data depended weakly on temperatures between 298 and 9.8 K. However, the estimated from (020) data decreased prominently with decreasing temperature.</abstract><cop>New York, NY</cop><pub>IEEE</pub><doi>10.1109/TASC.2010.2042437</doi><tpages>5</tpages></addata></record>
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subjects	Applied sciences Capacitive sensors COATINGS Conductors Conductors (devices) Copper COPPER OXIDE Critical current Diffraction Electric connection. Cables. Wiring Electrical engineering. Electrical power engineering Electromagnets Exact sciences and technology internal strain Mechanical factors MECHANICAL PROPERTIES NEUTRON DIFFRACTION Neutrons PROPERTIES STRAIN Superconducting epitaxial layers SUPERCONDUCTIVITY SUPERCONDUCTORS Temperature dependence Tensile strain TENSILE STRESS Thermal loading Various equipment and components YBCO coated conductor YBCO superconductors Yttrium barium copper oxide
title	Internal Strain and Mechanical Properties at Low Temperatures of Surround Cu Stabilized YBCO Coated Conductor
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