Deals fundamentally with the basic philosophy, principles and the application of prestressing in structural elements. This book covers the detailed engineering of the structural elements with prestressing forces in terms of analysis and design.
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Prestressing Systems and Devices
Analysis for Flexure Prestressed Concrete Elements
Losses in Prestress
Ultimate Strength in Flexure
Philosophy of Design
Design for Flexure
Shear and Torsional Behaviour Analysis and design
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anchor anchor zone anchorage applied stress assumed bending moment bottom fibre cable profile calculated capacity cement centroid Code compressive stress cross section dead load defined deflection deformation distribution due to prestress eccentricity effect elastic shortening equation evaluated external loads factor failure flange flexural force flow Hence high tensile steel indeterminate Indian Standard limit live load longitudinal loss due loss in prestress maximum minimum modulus moment of inertia neutral axis parabolic profile partial prestressing pipe post tensioned precast prestressed concrete beam prestressed concrete element prestressed concrete structures prestressing force prestressing steel ratio reinforced concrete section properties service load stage shear force shear stress shown in Fig slab soffit stirrups strain in steel strength of concrete stress due stress in concrete stress in steel stress level structural element tendons tensile force tensile stress top fibre torsion transfer transverse untensioned steel upto wires