Matches in UGent Biblio for { <https://biblio.ugent.be/publication/1923989#aggregation> ?p ?o. }
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- aggregation classification "P1".
- aggregation creator B125864.
- aggregation creator B125865.
- aggregation creator B125866.
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- aggregation date "2011".
- aggregation format "application/pdf".
- aggregation hasFormat 1923989.bibtex.
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- aggregation isPartOf urn:isbn:9780415621311.
- aggregation language "eng".
- aggregation publisher "CRC Press".
- aggregation rights "I have transferred the copyright for this publication to the publisher".
- aggregation subject "Technology and Engineering".
- aggregation title "In-situ local strain measurement in textile composites with embedded optical fibre sensors".
- aggregation abstract "To understand the local strains inside a textile composite, numerical simulations are typically done on the scale of one repetitive unit cell of the weaving pattern. Periodic boundary conditions are applied to the edges of the unit cell and different load cases can then be applied to the unit cell of the textile composite. Most often, the periodic boundary conditions are applied on all faces of the unit cell, which implies the assumption that the material is repeating itself over an infinite distance in all three orthogonal directions. This assumption is more or less valid for the textile composite material in the midplane of thick laminates, where it is constrained by neighbouring material in all three directions. It is very difficult to validate such simulations, because local strain measurements inside a textile composite have rarely been done, and the interpretation is not straightforward. This paper shows the successful use of embedded optical fibre sensors to measure the local strains inside a satin weave carbon/PPS composite (typically used in aerospace applications). The length of the Bragg grating inside the optical fibre sensor has been chosen such that it is longer than the length of one unit cell of the satin weave architecture (7.4 mm). The read-outs of the optical fibre sensor give the minimum and maximum local strains that occur along the length of the Bragg grating.".
- aggregation authorList BK323044.
- aggregation endPage "204".
- aggregation startPage "199".
- aggregation aggregates 1923990.
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