000010908 001__ 10908
000010908 005__ 20230606101157.0
000010908 020__ $$a9780429225956
000010908 037__ $$aCHAPTER
000010908 039_9 $$a2023-06-06 10:11:57$$b1001252$$c2022-09-28 15:08:46$$d0$$c2022-09-28 10:58:13$$d1000062$$y2022-09-23 09:15:03$$z1000099
000010908 041__ $$aeng
000010908 245__ $$aChillon Viaduct deck slab strengthening using reinforced UHPFRC :$$bnumerical simulation of full-scale tests
000010908 260__ $$aLondon$$bTaylor & Francis
000010908 269__ $$a2015-09
000010908 300__ $$a2 p.
000010908 506__ $$avisible
000010908 520__ $$9eng$$aThe strengthening method of bridge deck slabs by means of an Ultra High Performance Fiber Reinforced cement-based Composite material (UHPFRC) overlay has been validated by a specific experimental program which is presented in a companion contribution. This chapter presents results of a non-linear finite element analysis of the structural and cracking behavior of composite UHPFRC/concrete slabs subjected to loading similar to loading of real bridge decks. The deck slab of the Chillon Viaduct located on the Swiss National Highway on the East end of the Lake of Geneva, was strengthened by adding, on the previously hydro-jetted top surfaces of deck slabs, a 40 to 50 mm thick layer of UHPFRC which is additionally reinforced by steel rebars. Finite volume elements with 20 nodes were employed to represent the geometry of the structure, consisting of Reinforced Concrete (RC) monolithic slab elements and composite R-UHPFRC—RC slab elements, steel loading platesand supporting beams.
000010908 540__ $$acorrect
000010908 592__ $$aHEIA-FR
000010908 592__ $$biTEC - Institut des technologies de l'environnement construit
000010908 592__ $$cIngénierie et Architecture
000010908 700__ $$aSadouki, Hamid$$uEPFL, Lausanne, Switzerland
000010908 700__ $$aBrühwiler, Eugen$$uEPFL, Lausanne, Switzerland
000010908 700__ $$aZwicky, Daia$$uSchool of Engineering and Architecture (HEIA-FR), HES-SO University of Applied Sciences Western Switzerland
000010908 7201_ $$aDehn, F.$$uEd.
000010908 7201_ $$aBeushausen, H.-D.$$uEd.
000010908 7201_ $$aAlexander, M. G.$$uEd.
000010908 7201_ $$aMoyo, P.$$uEd.
000010908 773__ $$tConcrete Repair, Rehabilitation and Retrofitting IV : Proceedings of the 4th International Conference on Concrete Repair, Rehabilitation and Retrofitting (ICCRRR-4), 5-7 October 2015, Leipzig, Germany
000010908 8564_ $$yPublished version$$96d088c90-932a-47f5-8631-fbce6a6e1aea$$s1125445$$uhttps://arodes.hes-so.ch/record/10908/files/Zwicky_2015_chillon_viaduct_deck_slab_strengthening_UHPFRC.pdf
000010908 906__ $$aNONE
000010908 909CO $$ooai:hesso.tind.io:10908$$pGLOBAL_SET
000010908 950__ $$aaucun
000010908 980__ $$achapitre
000010908 981__ $$achapitre