Finite element analysis and design of steel and steel-concrete composite bridges: Fid-Bau Portal

Finite element analysis and design of steel and steel-concrete composite bridges

Ellobody, Ehab

1. Introduction -- 1.1. General remarks -- 1.2. Types of steel and steel-concrete composite bridges -- 1.3. Literature review of steel and steel-concrete composite bridges -- 1.4. Finite element modeling of steel and steel-concrete composite bridges -- 1.5. Current design codes of steel and steel-concrete composite bridges -- References -- 2. Nonlinear Material Behavior of the Bridge Components -- 2.1. General remarks -- 2.2. Nonlinear material properties of structural steel -- 2.3. Nonlinear material properties of concrete -- 2.4. Nonlinear material properties of reinforcement bars -- 2.5. Nonlinear material properties of prestressing tendons -- 2.6. Nonlinear behavior of shear connection -- References -- 3. Applied Loads and Stability of Steel and Steel-Concrete Composite Bridges -- 3.1. General remarks -- 3.2. Dead loads of steel and steel-concrete composite bridges -- 3.3. Live loads on steel and steel-concrete composite bridges

3.4. Horizontal forces on steel and steel-concrete composite bridges -- 3.5. Other loads on steel and steel-concrete composite bridges -- 3.6. Load combinations -- 3.7. Design approaches -- 3.8. Stability of steel and steel-concrete composite plate girder bridges -- 3.9. Stability of steel and steel-concrete composite truss bridges -- 3.10. Design of bolted and welded joints -- 3.11. Design of bridge bearings -- References -- 4. Design Examples of Steel and Steel-Concrete Composite Bridges -- 4.1. General remarks -- 4.2. Design example of a double-track plate girder deck railway steel bridge -- 4.3. Design example of a through truss highway steel bridge -- 4.4. Design example of a highway steel-concrete composite bridge -- 4.5. Design example of a double-track plate girder pony railway steel bridge -- 4.6. Design example of a deck truss highway steel bridge -- 5. Finite Element Analysis of Steel and Steel-Concrete Composite Bridges -- 5.1. General remarks

5.2. Choice of finite element types for steel and steel-concrete composite bridges -- 5.3. Choice of finite element mesh for the bridges and bridge components -- 5.4. Material modeling of the bridge components -- 5.5. Linear and nonlinear analyses of the bridges and bridge components -- 5.6. Riks method -- 5.7. Modeling of initial imperfections and residual stresses -- 5.8. Modeling of shear connection for steel-concrete composite bridges -- 5.9. Application of loads and boundary conditions on the bridges -- References -- 6. Examples of Finite Element Models of Steel Bridges -- 6.1. General remarks -- 6.2. Previous work -- 6.3. Finite element modeling and results of example 1 -- 6.4. Finite element modeling and results of example 2 -- 6.5. Finite element modeling and results of example 3 -- 6.6. Finite element modeling and results of example 4 -- References -- 7. Examples of Finite Element Models of Steel-Concrete Composite Bridges -- 7.1. General remarks

7.2. Previous work -- 7.3. Finite element modeling and results of example 1 -- 7.4. Finite element modeling and results of example 2 -- 7.5. Finite element modeling and results of example 3 -- References