Reinforced Concrete Design to BS 8110
Reinforced Concrete Design to BS 8110
Reinforced Concrete Designer's Handbook
Reinforced Concrete Designer's Handbook
Concrete Structures Books
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Reinforced Concrete Design to BS 8110 |
Reinforced Concrete Designer's Handbook |
Reinforced Concrete - Design Theory and Examples | Design of Concrete Structures |
Nonlinear Mechanics of Reinforced Concrete |
Strengthening of Reinforced Concrete Structures |
Concrete Structures: Stresses and Deformations | Concrete Formwork Systems |
Durability of Concrete Structures |
Precast Prestressed Concrete Parking Structures |
The Design of Prestressed Concrete |
Structural Details in Concrete |
Testing of Concrete in Structures | Concrete and Masonry Databook |
Seismic Design of Reinforced and Precast Concrete Buildings |
Design of Offshore Concrete Structures |
Reinforced Concrete: Analysis and Design |
Seismic Design of Reinforced Concrete and Masonry Buildings |
| Descripsion |
| Design of rectangular and square slabs under uniform loads and line loads, Design of hollow block slabs, One way and two slabs, Design of panelled beams, Design of beams under torsional moment and taking into consideration the effect of shear stresses, Design of stairs, Design of columns under biaxial moments, Design of short and long columns under centric and eccentric loads. Design of R.C. shallow foundations, Design of simple and continuous girders, Design of statically determinate and statically indeterminate frames and design of hinges. Design of trusses, Vierendeel girders, Arch slabs, Arch girders, Design of saw tooth slab and girder types, Details of joints in R.C. structures, Structural systems of buildings (wall bearing, skeleton). Physical and mechanical properties of concrete and reinforcing steel. Loads on buildings, Load distribution on beams. Behaviour and design of reinforced concrete beams, (simple, continuous and cantilever beams). Behaviour and design of axially loaded short columns. Study structural systems of slabs (solid, hollow block, ribbed, flat slab and panelled beams). Behaviour and design of reinforced concrete solid slabs (one and two way). Structural systems of stairs. Structural systems of reinforced concrete halls (frames, domes, cones, surfaces of revolution, folded plates, shells, ... etc.). Study of physical and mechanical properties of concrete and steel reinforcement, Study of structural systems, Statical systems of floor elements and load distribution on different supporting elements, Experimental behaviour of reinforced concrete elements under flexure, Design of short columns under axial and eccentric loads, Design of reinforced concrete beams and statically determinate frames under bending moments and normal and shearing forces using the limit state design method, Study of bond between concrete and steel, The development length of reinforcement, Details of reinforcement of beams and statically determinate frames, Study of serviceability limit states (deflection and cracking) and design of reinforced concrete elements using the working stress design method. |
