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Development of Optimal Structural System for Hybrid Cable-Stayed Bridges Using Ultra High Performance Concrete 被引量:1

Development of Optimal Structural System for Hybrid Cable-Stayed Bridges Using Ultra High Performance Concrete
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摘要 This study developed an optimal structural system for the hybrid cable-stayed bridge expected to have a durable lifetime of 200 years and of which major structural members are made of ultra high performance concrete (UHPC) with 200 MPa-class compressive strength. This innovative cable-stayed bridge system makes it possible to reduce each of the construction and maintenance costs by 20% compared to the conventional concrete cable-stayed bridge by improving significantly the weight and durability of the bridge. Therefore, detail design is carried out considering a real 800 m cable-stayed bridge and the optimal structure of the hybrid cable-stayed bridge is proposed and verified. This study developed an optimal structural system for the hybrid cable-stayed bridge expected to have a durable lifetime of 200 years and of which major structural members are made of ultra high performance concrete (UHPC) with 200 MPa-class compressive strength. This innovative cable-stayed bridge system makes it possible to reduce each of the construction and maintenance costs by 20% compared to the conventional concrete cable-stayed bridge by improving significantly the weight and durability of the bridge. Therefore, detail design is carried out considering a real 800 m cable-stayed bridge and the optimal structure of the hybrid cable-stayed bridge is proposed and verified.
出处 《Engineering(科研)》 2013年第9期720-728,共9页 工程(英文)(1947-3931)
关键词 HYBRID CABLE-STAYED Bridge Ultra High Performance Concrete (UHPC) OPTIMAL Structural System DURABILITY Hybrid Cable-Stayed Bridge Ultra High Performance Concrete (UHPC) Optimal Structural System Durability
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