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Behaviour and Design ofEXTRADOSED BRIDGESbyKonstantinos Kris Mermigas& b. l; m2 ?6 I2 h0 H" P* `
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ABSTRACT
% B5 r* X# ]2 jThe purpose of this thesis is to provide insight into how different geometric parameters such as tower
& @0 @. {: v7 X5 L4 S5 `' M& dheight, girder depth, and pier dimensions influence the structural behaviour, cost, and feasibility of an( A5 \- |0 F x# I$ `7 N
extradosed bridge.
2 p D g9 j) t4 O8 YA study of 51 extradosed bridges shows the variability in proportions and use of extradosed bridges,2 P* q" i5 p* n1 s
and compares their material quantities and structural characteristics to girder and cable-stayed bridges.
( k& X% |0 Y2 w8 u4 g+ E- @- a uThe strategies and factors that must be considered in the design of an extradosed bridge are discussed.
! B7 ]. J% c7 [7 M3 T# ZTwo cantilever constructed girder bridges, an extradosed bridge with stiff girder, and an extradosed
/ q1 V& Z+ W6 _$ u8 D- ?0 Sbridge with stiff tower are designed for a three span bridge with central span of 140 m. The structural
F8 K6 V1 }! k9 X$ ]/ g3 V$ Wbehaviour, materials utilisation, and costs of each bridge are compared. Providing stiffness either in the8 |/ Q5 y0 Y8 J: {) L6 V2 ~( R0 e
girder or in the piers of an extradosed bridge are both found to be effective stategies that lead to
5 S- q3 w5 J/ N$ k, m- t# i" Gcompetitive designs. K3 X8 E: Y- k z' N+ B6 R* i' W
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