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Lecture
Verification of Concrete Bridges: Self-Constrained Approach
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Related lectures (31)
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Beams and Gerber Trusses
Explores pre-dimensioning concrete beams, analyzing Gerber beams, and understanding structural forces through iterative work.
Stability of Piles and Systems
Covers the stability of piles and systems, including design considerations for concrete bridge slabs.
Shrinkage and Sorption
Delves into concrete durability, capillary transport, anomalous behavior, and future research directions in the field of structural engineering and building materials.
Optimizing Concrete Structures Design
Explores advanced concrete structures design, emphasizing optimization of precast elements and post-tensioning techniques.
Pre-dimensioning of Beams: i-Cremona
Covers pre-dimensioning of beams using i-Cremona and reinforced concrete beam sections.
Structural Design: Roofing and Timber Construction
Explores the structural design of roofing and timber construction, including recycled materials and concrete principles.
Evolution of Cable-Stayed Bridges
Explores the evolution and design principles of cable-stayed bridges, focusing on reinforcement characteristics and force distribution.
Thermal Shrinkage and Creep in Concrete
Discusses thermal shrinkage challenges in concrete structures and the importance of considering creep in structural design.
Materials and Structural Design
Explores materials behavior, structural design principles, and building element considerations for ensuring structural safety.
Stability of Piles and Battery Systems
Discusses battery system stability, reinforcement flow in concrete, and second-order verification of floating systems.
