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Innovative Concrete Bridging System for Pedestrian Bridges: Implementation and Monitoring.

机译：人行天桥创新混凝土桥接系统：实施与监控。

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Two precast, prestressed pedestrian bridges were designed for rapid construction in Rolla, MO, utilizing high-strength concrete (HSC) and high-strength self-consolidating concrete (HS-SCC) with a target 28 day compressive strength of 68.9 MPa (10,000 psi) and release compressive strength of 24.1 MPa (3,500 psi). In addition, a glass fiber reinforced polymer (GFRP) bar reinforced deck panel system was utilized in one of the two deck panels on each bridge. Material properties were tested for compression, elastic modulus, modulus of rupture, splitting tensile strength, creep, and shrinkage following ASTM standards. Instrumentation systems within the spandrel beams and precast deck panels were implemented to monitor early and later-age temperature and strain variations between the concrete mixtures and reinforcing types. In addition, the sensors were utilized to calculate the prestress losses for HSC and HSSCC in the spandrel beams. A live load test was completed one year after spandrel beam fabrication to investigate the differences in deflection of HSC, HS-SCC, and reinforcement types. All material and mechanical results were compared between HSC and HSSCC. Furthermore, the results were compared to standard empirical models presented by AASHTO, ACI, and PCI.

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作者
J. J. Myers K. E. Bloch;
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年度 2013
页码 1-294
总页数 294
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Bridges; Compression; Creep; Fabrication; Fiber reinforced polymers; Implementation; Material properties; Monitoring; Pedestrians; Prestressed concrete; Shrinkage; Tensile strength;

机译：桥梁;压缩;蠕变;制造;纤维增强聚合物;实施;材料特性;监测;行人;预应力混凝土;收缩;抗拉强度;

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Innovative Concrete Bridging System for Pedestrian Bridges: Implementation and Monitoring.

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