Limit Analysis and Concrete Plasticity
Autor M.P. Nielsen, L. C. Hoangen Limba Engleză Hardback – 13 dec 2010
Updated and revised throughout, Limit Analysis and Concrete Plasticity, Third Edition adds—
- Reinforcement design formulas for three-dimensional stress fields that enable design of solid structures (also suitable for implementation in computer-based lower bound optimizations)
- Improved explanations of the crack sliding theory and new solutions for beams with arbitrary curved shear cracks, continuous beams, lightly shear reinforced beams and beams with large axial compression
- More accurate treatment of and solutions for beams with circular cross-section
- Applications of crack sliding theory to punching shear problems
- New solutions that illustrate the implication of initial cracking on load-carrying capacity of disks
- Yield condition for the limiting case of isotropically cracked disk
The authors also devote an entirely new chapter to a recently developed theory of rigid-plastic dynamics for seismic design of concrete structures. In comparison with time-history analyses, the new theory is simpler to use and leads to large material savings. With this chapter, plasticity design methods for both statical and dynamical loads are now covered by the book.
Preț: 1338.72 lei
Preț vechi: 1632.58 lei
-18% Nou
Puncte Express: 2008
Preț estimativ în valută:
256.29€ • 266.40$ • 212.49£
256.29€ • 266.40$ • 212.49£
Carte tipărită la comandă
Livrare economică 06-20 februarie 25
Preluare comenzi: 021 569.72.76
Specificații
ISBN-13: 9781439803967
ISBN-10: 143980396X
Pagini: 816
Ilustrații: 669 b/w images, 6 tables and Equation heavy
Dimensiuni: 178 x 254 x 41 mm
Greutate: 1.59 kg
Ediția:Revizuită
Editura: CRC Press
Colecția CRC Press
ISBN-10: 143980396X
Pagini: 816
Ilustrații: 669 b/w images, 6 tables and Equation heavy
Dimensiuni: 178 x 254 x 41 mm
Greutate: 1.59 kg
Ediția:Revizuită
Editura: CRC Press
Colecția CRC Press
Cuprins
Introduction, The Theory of Plasticity, Constitutive Equations, Extremum Principles for Rigid-Plastic Materials, The Solution of Plasticity Problems, Reinforced Concrete Structures, Yield Conditions, Concrete, Yield Conditions for Reinforced Disks, Yield Conditions for Slabs, Reinforcement Design, The Theory of Plain Concrete, Statical Conditions, Geometrical Conditions, Virtual Work, Statical Conditions, Geometrical Conditions, Virtual Work, Constitutive Equations, Exact Solutions for Isotropic Disks, The Effective Compressive Strength of Reinforced Disks, General Theory of Lower Bound Solutions, Strut and Tie Models, Shear Walls, Homogenous Reinforcement Solutions, Design According to the Elastic Theory, Beams, Beams in Bending, Beams in Shear, Beams in Torsion, Combined Bending, Shear, and Torsion, Slabs, Statical Conditions, Geometrical Conditions, Virtual Work, Boundary Conditions, Constitutive Equations, Exact Solutions for Isotropic Slabs, Upper Bound Solutions for Isotropic Slabs, Lower Bound Solutions, Orthotropic Slabs, Analytical Optimum Reinforcement Solutions, Numerical Methods, Membrane Action, Punching Shear of Slabs, Introduction, Internal Loads or Columns, Edge and Corner Loads, Concluding Remarks, Shear in Joints, Introduction, Analysis of Joints by Plastic Theory, Strength of Different Types of Joints, The Bond Strength of Reinforcing Bars, Introduction, The Local Failure Mechanism, Failure Mechanisms, Analysis of Failure Mechanisms, Assessment of Anchor and Splice Strength, Effect of Transverse Pressure and Support Reaction, Effect of Transverse Reinforcement, Concluding Remarks
Notă biografică
M.P. Nielsen Technical University of Denmark, Bygning, L.C. Hoang
Descriere
Now in its third edition, this book describes the basic principles of plasticity theory and its application to the design of reinforced and pre-stressed concrete structures. This edition includes formulas for reinforcement design for threedimensional stress fields, describes the theory of rigid-plastic dynamics, contains a heightened explanation of the theory of crack sliding to enable practical applications and to explain punching shear, and explores shear in beams and columns with circular cross sections.