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Ultra-high performance concrete (UHCP) precast segmental bridges

Citation Link: https://doi.org/10.15480/882.1370
Publikationstyp
Doctoral Thesis
Date Issued
2016
Sprache
English
Author(s)
Shin, Jaewoo  
Advisor
Rombach, Günter A.  
Referee
Starossek, Uwe
Title Granting Institution
Technische Universität Hamburg
Place of Title Granting Institution
Hamburg
Examination Date
2016-07-06
Institut
Massivbau B-7  
TORE-DOI
10.15480/882.1370
TORE-URI
http://tubdok.tub.tuhh.de/handle/11420/1373
First published in
Institut für Massivbau;14
Schriftenreihe des Instituts für Massivbau der TUHH  
Number in series
14
Publisher
Shaker Verlag
Bridges have been built for thousands of years. Nevertheless, new construction methods which enable a very fast erection, a structure which can adapt to the increasing traffic loads, and new materials which improve the durability are still required. An externally post-tensioned precast segmental box girder bridge (PSB) is one solution to these requirements. The great advantages of this type of bridge have made them the preferred construction method for many great elevated highway projects, especially in South East Asia. Normal concrete, having a compressive strength of around fck  40 MPa, had been used for these structures. In the last years, concrete having fck > 160 MPa has been developed. This Ultra High Performance Concrete (UHPC) shows significant advantages with regard to strength and durability. While the mechanical properties of UHPC are known, the applications for it are progressing very slowly because of high material cost and lack of design and experience. Thus, this research work focuses on the structural behaviour and the design of UHPC precast segmental bridges.
First, this research gives a brief overview of the material characteristics of UHPC and the suitability for application to segmental bridge construction. The design recommendations of various countries are analyzed. Some examples of UHPC segmental bridges are presented and discussed.
The results from a full-scale test of a Precast Segmental Bridge (PSB) are used to verify a non-linear FE-model of the structure. This numerical model is then adapted to UHPC bridges, having smaller cross-section heights and slab thicknesses. An intense parametric study (slenderness ratio, thickness of slabs, E-modulus, prestressing force) is conducted to find the most appropriate cross-section for UHPC-PSB. Based on these investigations, a multi-cell box girder with stiffeners is proposed as a viable UHPC precast segmental bridge. The structural behavior, e.g. the deflection, the width of the joint opening after decompression, the compressive and shear stress distribution and the increase of tendon stress for this single span structure is analyzed and discussed. It is demonstrated, that a UHPC-PSB shows significant advantages, such as the significantly reduced dead load, compared to constructions with normal strength concrete.
The capacity of the dry joints between adjacent segments is of crucial importance for the safety of the structure. It is doubtful whether the known design approaches for normal strength concrete can be used for UHPC structures. Therefore UHPC shear-key tests are conducted. Through the comparison of existing designs for UHPC shear-keys, and non-linear FE-simulations, a new design method for shear resistance of UHPC shear-key is proposed.
Subjects
precast semental bridges
UHPC
joint design
DDC Class
620: Ingenieurwissenschaften
Lizenz
http://rightsstatements.org/vocab/InC/1.0/
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