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girder systems. I-girder and box shaped members are covered. Bracing for other types of bridges, such as truss, arch or towers is not specifically addressed; however much of the information included in this volume may be applicable. Bracing systems serve a number of important roles in both straight and horizontally curved bridges.
This volume discusses the design of bracing systems for the superstructures of straight and curved girder systems. I-girder and box shaped members are covered. Bracing for other types of bridges, such as truss, arch or towers is not specifically addressed; however much of the information included in this volume may be applicable.
8 paź 2018 · Learn more about this webinar including accessing the course slides and receiving PDH credit at: https://www.aisc.org/bridgebracing/#.W7vN4ntKiUk
Steel Bridge Design Handbook: Bracing System Design. This module discusses the design of bracing systems for the superstructures of straight and curved girder systems. I-girder and box shaped members are covered.
This module discusses the design of bracing systems for the superstructures of straight and curved girder systems. I-girder and box shaped members are covered. Bracing for other types of bridges, such as truss, arch or towers is not specifically addressed; however much of the information included in this module may be applicable.
Cast-In-Place Concrete Slab Span standards are available for structures using a 14" or 16" slab depth. These are included in our issued set of C-I-PConcrete Slab Span standards. Steel Beam standards are available for structures with Type W18, W21, W24, W27, W30, W33, W36 or W40 beams.
1 lis 2012 · Steel Bridge Design Handbook: Bracing System Design. This module discusses the design of bracing systems for the superstructures of straight and curved girder systems. I-girder and box shaped members are covered.
