Limit State Design of Reinforced Concrete
Varghese, P C
Limit State Design of Reinforced Concrete - 2nd - New Delhi PHI 2016 - 545p.
Methods of Design of Concrete Structures. Partial Safety Factors in Limit State Design. Limit State of Durability of Reinforced Concrete to Environment. Theory of Singly Reinforced Members in Bending (Limit State of Collapse—Flexure). Examples in Design and Analysis of Singly Reinforced Beams. Design of Doubly Reinforced Beams. Limit State of Collapse in Shear (Design for Shear). Design of Flanged Beams. Design of Bending Members for Serviceability Requirements of Deflection and Cracking. Bond, Anchorage, Development Lengths and Splicing. Design of One-way Slabs. Design of Two-way Slabs. Limit State of Collapse in Compression Design of Axially Loaded Short Columns. Design of Short Columns with Moments. Effective Length of Columns. Design of R.C. Slender Columns. Design of Concrete Walls Carrying Vertical Loads. Design for Torsion. Design of R.C. Members in Tension. Design of Staircases. Design of Corbels, Brackets and Nibs.
Design of Footings, Pedestals and Pile Caps. Appendices—A: Working Stress Method of Design. B: General Data for Designs. C: Formulae for Some Charts and Tables in IS 456. D: Standard Method of Detailing R.C. Beams and Slabs. Index.
9788120320390
Civil engineering
624.18341 VAR-L
Limit State Design of Reinforced Concrete - 2nd - New Delhi PHI 2016 - 545p.
Methods of Design of Concrete Structures. Partial Safety Factors in Limit State Design. Limit State of Durability of Reinforced Concrete to Environment. Theory of Singly Reinforced Members in Bending (Limit State of Collapse—Flexure). Examples in Design and Analysis of Singly Reinforced Beams. Design of Doubly Reinforced Beams. Limit State of Collapse in Shear (Design for Shear). Design of Flanged Beams. Design of Bending Members for Serviceability Requirements of Deflection and Cracking. Bond, Anchorage, Development Lengths and Splicing. Design of One-way Slabs. Design of Two-way Slabs. Limit State of Collapse in Compression Design of Axially Loaded Short Columns. Design of Short Columns with Moments. Effective Length of Columns. Design of R.C. Slender Columns. Design of Concrete Walls Carrying Vertical Loads. Design for Torsion. Design of R.C. Members in Tension. Design of Staircases. Design of Corbels, Brackets and Nibs.
Design of Footings, Pedestals and Pile Caps. Appendices—A: Working Stress Method of Design. B: General Data for Designs. C: Formulae for Some Charts and Tables in IS 456. D: Standard Method of Detailing R.C. Beams and Slabs. Index.
9788120320390
Civil engineering
624.18341 VAR-L