SP-216: Innovations in Fiber-Reinforced Concrete for Value

Notes/Preview

PURCHASE INDIVIDUAL PAPERS

Editors:N.Banthia,M.Criswell,P.Tatnall,K.Folliard

Description

Fiber reinforcement is one of the most effective ways of enhancing the resistance of concrete to dynamic loads. This Symposium Publication has 14 papers relating to the innovations in fiber-reinforced concrete on topics including fire performance/resistance, high-strength concrete, piezoelectricity and pyroelectricity, steel fibers, tensile test and tensile creep, and much more.

Document Details

Publication Year: 2003

Pages: 240

ISBN: 9780870311260

Categories: Fiber-Reinforced Concrete

Formats: PDF

Table of Contents

SP-216-1: Influence of Fiber Dispersion on the Performance of Microfiber Reinforced Cement Composites

by Y. Akkaya, S.P. Shah, and M. Ghanderhari

SP-216-2: Effect of Specimen Size on the Compressive Response of High Strength Concrete Containing Fibers and Spiral Steel Reinforcement

by G. Campione and S. Mindess

SP-216-3: High Strength Lightweight Aggregate Fiber-Reinforced Concrete (HS-LWA FRC) Filled Steel Tube Columns for Increased Seismic Resistance

by J. Punchin, N. Krstulovic-Opara, and B. Brezac

SP-216-4: Fiber Reinforced High Strength Concrete: Residual Strength and Pore Structure Subjected to High Temperatures

by X. Luo, W. Sun, Y.M. Zhang, and S.Y.N. Chan

SP-216-5: Strength and Size Effects in Fiber Reinforced Materials

by S. Cattaneo and G. Rosati

SP-216-6: Shear Capacity of Concrete Beams Containing Longitudinal Reinforcement and Steel Fibers

by D. Dupont and L.Vanderwalle

SP-216-7: Steel Belted...Steel Fibers Reinforce Houston's Beltway 8

by J.H. Loper and C.P.Henry

SP-216-8: Fiber-Reinforced Cement for Piezoelectricity and Pyroelectricity

by S. Wen and D.D.L Chung

SP-216-9: Dynamic Splitting Tensile Strength of SFRC - An Experimental and Numerical Investigation

by T.S. Lok and G. Lu

SP-216-10: A New Look at Tensile Creep of Fiber-Reinforced Concrete

by S.A. Altoubat and D.A. Lange

SP-216-11: Tensile Response of HPFRC Composites Using Twisted Polygonal Steel Fibers

by C. Sujivorakul and A.E. Naaman

SP-216-12: A Design Method for Punching Shear Strength of Steel Fiber Reinforced Concrete Slabs

by D.D. Theodoarakopoulos and R.N. Swamy

SP-216-13: Crack Growth Resistance of Fiber-Reinforced Concrete Under Drop-Weight Impact Loading

by V. Bindiganavile and N. Banthia

SP-216-14: Fiber Reinforcement for Minimizing Spalling in High Strength Concrete Structural Members Exposed to Fire

by V.K.R. Kodur

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