|
Title: SP-265: Thomas T.C. Hsu Symposium: Shear and Torsion in Concrete Structures
Year of Publication: 2009
Number of Pages: 672
This document is: Active
Nonmember Price: $89.50
ACI Member Price: $54.00
Order Code: SP265CD
Abstract: Editors: Abdeldjelil Belarbi, Y.L. Mo, Ashraf Ayoub Sponsored by: ACI Committees 343, 445, and 447 This CD-ROM consists of 29 papers that were presented at technical sessions sponsored by Joint ACI Committees 343, 445, and 447, at the ACI Fall 2009 Convention in New Orleans, LA, in November 2009. The papers represent state-of-the-art advances in knowledge on shear and torsion.
Contents: Part 1—Recent Advances in Seismic Shear of Wall-Type Structures SP-265—1 Test of a Coupled Wall with High-Performance Fiber-Reinforced Concrete Coupling Beams. by R.D. Lequesne, G.J. Parra-Montesinos, and J.K. Wight SP-265—2 Shear Strength Prediction of Eccentric Beam-Column Joints. by E. Lim, S.-J. Hwang, and H.-J. Lee SP-265—3 Reversed Cyclic Behavior of Reinforced Concrete Shear Walls with Diagonal Steel Grids. by J.-X. Zhong, Y.-L. Mo, and W.-I. Liao SP-265—4 Evaluation of Behavior of Reinforced Concrete Shear Walls through Finite Element Analysis. by R.T. Mullapudi, P. Charkhchi, and A.S. Ayoub SP-265—5 Constitutive Relations of Cracked Reinforced Concrete with Steel Fibers. by M.Y. Mansour, T.T.C. Hsu, and Y.-L. Mo SP-265—6 Refinements to Compression Field Theory, with Application to Wall-Type Structures. by L.M. Gil-Martín, E. Hernández-Montes, M.A. Aschheim, and S. Pantazopoulou Part 2—Recent Advances in Nonlinear Finite Element Analysis of Concrete Structures SP-265—7 Damage Tools to Model Severe Loading Effects on Reinforced Concrete Structures. by J. Mazars, A. Rouquand, C. Pontiroli, P. Berthet-Rambaud, and Y. Malécot SP-265—8 Evaluation and Calibration of Load-Deformation Models for Concrete Walls. by L.N. Lowes, P. Oyen, and D.E. Lehman SP-265—9 Experimental Observations of Masonry Infilled Reinforced Concrete Frames with Openings. by B. Blackard, K. Willam, and S. Mettupalayam SP-265—10 Finite Element Analysis ofReinforced Concrete JointsSubjected to Multi-Axial Loading. by H. Noguchi, T. Kashiwazaki, and K. Miura SP-265—11 On Peridynamic Computational Simulation of Concrete Structures. by W.H. Gerstle, N. Sau, and N. Sakhavand SP-265—12 Evaluation of Sequentially Linear Finite Element Analysis to Simulate Nonlinear Response of Cement-Based Composites. by S.L. Billington SP-265—13 Fiber Beam Element Formulation Using the Softened Membrane Model. by R.T. Mullapudi and A.S. Ayoub Part 3—Five Decades of Progress in Shear and Torsion SP-265—14 Development of Models for Torsion of Concrete Structures in Northern Europe. by L. Elfgren SP-265—15 Structural Concrete Beam Shear—Still a Riddle?. by M.W. Braestrup SP-265—16 Punching Shear in Fire-Damaged Reinforced Concrete Slabs. by P. Bamonte, R. Felicetti, and P.G. Gambarova SP-265—17 Review of Basic Assumptions for the Shear Design. by K.-H. Reineck SP-265—18 Investigation of Strut Strength Using a Deep-Beam Database. by N. Bahen and D.H. Sanders SP-265—19 Evaluation of Minimum Shear Reinforcement Requirements in Non-Prestressed Beams without Distributed Horizontal Reinforcement . by L.H. Sneed and J.A. Ramirez SP-265—20 Shear-Flexure-Torsion Interaction Features of Reinforced Concrete Bridge Columns—An Experimental Study. by S.S. Prakash and A. Belarbi SP-265—21 Behavior of Reinforced Concrete Elements Subjected to Tri-Directional Shear Using a State-of-the-Art Panel Tester by M. Labib, Y. Moslehy, and A.S. Ayoub Part 4—Recent Advances in Shear of Concrete Bridges SP-265—22 Shear Design Considerations for Deep Concrete Bridge Girders. by N.M. Hawkins and D.A. Kuchma SP-265—23 Shear Strength of Slabs with Double-Headed Shear Studs in Radial and Orthogonal Layouts. by G. Birkle and W.H. Dilger SP-265—24 Shear Capacity of Ultra-High-Performance Concrete I-Girders with Orthogonal Welded Wire Reinforcement. by G. Morcous, M. Maguire, and M.K. Tadros SP-265—25 Effect of Strand Debonding on Prestressed Concrete Girder Shear Performance. by M. Shahawy and T.K. Hassan SP-265—26 Concrete—The Sustainable 21st Century Greening Infrastructure Material by E.G. Nawy SP-265—27 A New Design Method for Shear in Prestressed Concrete Girders. by A. Laskar, T.T.C. Hsu, and Y.-L. Mo SP-265—28 FRP Shear Transfer Mechanism for Precast, Prestressed Concrete Sandwich Load-Bearing Panels. by S.H. Rizkalla, T.K. Hassan, and G. Lucier SP-265—29 Reliability Models for Shear in Reinforced Concrete Beams. by A.S. Nowak and P. Paczkowski
|