Weeks, T.
, McColskey, J.
, Reed, R.
, Walsh, R.
and Martovetsky, N.
(2013),
Compression-Fatigue, Elastic Modulus, and Thermal Contraction of Insulated Conduit Arrays of ITER CS Modules, IEEE Transactions on Applied Superconductivity, Portland, OR, [online], https://doi.org/10.1109/TASC.2013.2237940
(Accessed December 26, 2024)
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Compression-Fatigue, Elastic Modulus, and Thermal Contraction of Insulated Conduit Arrays of ITER CS Modules
Published
Author(s)
, , Richard Reed, Robert Walsh, N. Martovetsky
Abstract
Abstract- Compression-fatigue tests at 76 K were conducted to compare two insulation systems (epoxy resin impregnated glass/Kapton) for use in the ITER Central Solenoid modules. Test samples consisted of insulated conduits that were stacked in 4 x 4 arrays. The thermal contraction (295-76 K) prior to fatigue, elastic modulus during fatigue, and the structural integrity of the insulation were measured and assessed at the NIST large-scale test facilities. The maximum cyclic stress of 72 MPa, minimum stress of 25 MPa, and 1.2 x 106 cycles were used to comply with ITER design objectives. Thermal contraction between 295 and 76 K and the elastic modulus were measured using strain gages and strain-gage extensometers. Calibration of the strain was obtained through the use of an equivalent-size block of 6061-T6 aluminum alloy with known thermal contraction and elastic moduli. Following fatigue, the arrays were cross-sectioned and optically examined for resin-impregnation quality and fatigue cracking tendencies of the insulation systems. The thermal contraction and elastic modulus of cross-sectioned samples were remeasured at NHMFL using different techniques.Proceedings Title
IEEE Transactions on Applied Superconductivity
Volume
23
Issue
3
Conference Dates
October 7-12, 2012
Conference Location
Portland, OR
Conference Title
APPLIED SUPERCONDUCTIVITY CONFERENCE
Pub Type
Conferences
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Keywords
compression fatigue, elastic modulus, glass/epoxy composite, thermal contraction, turn insulation
Citation
Issues
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Created January 9, 2013, Updated November 10, 2018