Analytical and finite element investigations of shear/compression test fixtures

Insulation systems are critical components of the international thermonuclear experimental reactor (ITER). They must meet the super conducting magnets design requirements, including mechanical strength under combined shear and compressive stresses at cryogenic temperatures. Past cryogenic magnet sys...

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Published in	Cryogenics (Guildford) Vol. 45; no. 9; pp. 606 - 616
Main Authors	Pahr, D.H., Böhm, H.J., Humer, K., Weber, H.W.
Format	Journal Article
Language	English
Published	Oxford Elsevier Ltd 01.09.2005 Elsevier
Subjects	Applied sciences Composites (A) Cryogenics Energy Energy. Thermal use of fuels Exact sciences and technology Mechanical properties (C) Nitrogen (B) Refrigerating engineering. Cryogenics. Food conservation Superconducting magnets (F) Thermal expansion (C) Nitrogen (B) Mechanical properties (C) Composites (A) Thermal expansion (C) Superconducting magnets (F) Shear test Compression Cooling Fiber reinforced material Mechanical properties Nitrogen Cryogenic temperature Finite element method Thermal expansion Superconducting magnet Cryogenics Reliability
Online Access	Get full text
ISSN	0011-2275 1879-2235
DOI	10.1016/j.cryogenics.2004.12.002

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Abstract	Insulation systems are critical components of the international thermonuclear experimental reactor (ITER). They must meet the super conducting magnets design requirements, including mechanical strength under combined shear and compressive stresses at cryogenic temperatures. Past cryogenic magnet systems often relied on woven glass/epoxy materials for insulation. An important point is to find a reliable shear/compression test method for these materials. The present work investigates a commonly used shear/compression setup and aims at measuring the reliability of the obtained test results. Therefore, the stress and failure analysis is performed analytically and numerically using the finite element method. The model is based on woven glass fiber reinforced materials which are subjected to combined shear and compressive stresses as well as to thermal loading, that results from cooling from 293 K to the test temperature of 77 K. A short analytical section shows the problems of common failure criteria which are used to describe the interaction of the shear and compression stresses. The numerical—finite element—section is based on three-dimensional linear elastic finite element models under thermo-mechanical loading. The locations of high stress gradients are investigated using an average stress criterion. Three different model geometries (15°, 45°, and 70°) are analyzed and finally compared with respect to their reliability.
AbstractList	Insulation systems are critical components of the international thermonuclear experimental reactor (ITER). They must meet the super conducting magnets design requirements, including mechanical strength under combined shear and compressive stresses at cryogenic temperatures. Past cryogenic magnet systems often relied on woven glass/epoxy materials for insulation. An important point is to find a reliable shear/compression test method for these materials. The present work investigates a commonly used shear/compression setup and aims at measuring the reliability of the obtained test results. Therefore, the stress and failure analysis is performed analytically and numerically using the finite element method. The model is based on woven glass fiber reinforced materials which are subjected to combined shear and compressive stresses as well as to thermal loading, that results from cooling from 293 K to the test temperature of 77 K. A short analytical section shows the problems of common failure criteria which are used to describe the interaction of the shear and compression stresses. The numerical finite element-section is based on three-dimensional linear elastic finite element models under thermo-mechanical loading. The locations of high stress gradients are investigated using an average stress criterion. Three different model geometries (15DG, 45DG, and 70DG) are analyzed and finally compared with respect to their reliability. Insulation systems are critical components of the international thermonuclear experimental reactor (ITER). They must meet the super conducting magnets design requirements, including mechanical strength under combined shear and compressive stresses at cryogenic temperatures. Past cryogenic magnet systems often relied on woven glass/epoxy materials for insulation. An important point is to find a reliable shear/compression test method for these materials. The present work investigates a commonly used shear/compression setup and aims at measuring the reliability of the obtained test results. Therefore, the stress and failure analysis is performed analytically and numerically using the finite element method. The model is based on woven glass fiber reinforced materials which are subjected to combined shear and compressive stresses as well as to thermal loading, that results from cooling from 293 K to the test temperature of 77 K. A short analytical section shows the problems of common failure criteria which are used to describe the interaction of the shear and compression stresses. The numerical—finite element—section is based on three-dimensional linear elastic finite element models under thermo-mechanical loading. The locations of high stress gradients are investigated using an average stress criterion. Three different model geometries (15°, 45°, and 70°) are analyzed and finally compared with respect to their reliability.
Author	Humer, K. Weber, H.W. Böhm, H.J. Pahr, D.H.
Author_xml	– sequence: 1 givenname: D.H. surname: Pahr fullname: Pahr, D.H. email: pahr@ilsb.tuwien.ac.at organization: Institute of Lightweight Design and Structural Biomechanics, Gusshausstrasse 27-29, TU, A-1040 Vienna, Austria – sequence: 2 givenname: H.J. surname: Böhm fullname: Böhm, H.J. organization: Institute of Lightweight Design and Structural Biomechanics, Gusshausstrasse 27-29, TU, A-1040 Vienna, Austria – sequence: 3 givenname: K. surname: Humer fullname: Humer, K. organization: Atomic Institute of the Austrian Universities, Vienna, Austria – sequence: 4 givenname: H.W. surname: Weber fullname: Weber, H.W. organization: Atomic Institute of the Austrian Universities, Vienna, Austria
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Keywords	Nitrogen (B) Mechanical properties (C) Composites (A) Thermal expansion (C) Superconducting magnets (F) Shear test Compression Cooling Fiber reinforced material Mechanical properties Nitrogen Cryogenic temperature Finite element method Thermal expansion Superconducting magnet Cryogenics Reliability
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Snippet	Insulation systems are critical components of the international thermonuclear experimental reactor (ITER). They must meet the super conducting magnets design...
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SubjectTerms	Applied sciences Composites (A) Cryogenics Energy Energy. Thermal use of fuels Exact sciences and technology Mechanical properties (C) Nitrogen (B) Refrigerating engineering. Cryogenics. Food conservation Superconducting magnets (F) Thermal expansion (C)
Title	Analytical and finite element investigations of shear/compression test fixtures
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