High-strength materials offer alternatives to frequently used materials for high-rise construction. A material of higher strength means a smaller member size is required to resist the design load. However, high-strength concrete is brittle, and high-strength thin steel plates are prone to local buckling. A solution to overcome such problems is to adopt a steel-concrete composite design in which concrete provides lateral restraint to steel plates against local buckling, and steel plates provide confinement to high-strength concrete.
Design of Steel-Concrete Composite Structures Using High Strength Materials provides guidance on the design of composite steel-concrete structures using combined high-strength concretes and steels. The book includes a database of over 2,500 test results on composite columns to evaluate design methods, and presents calculations to determine critical parameters affecting the strength and ductility of high-strength composite columns. Finally, the book proposes design methods for axial-moment interaction curves in composite columns. This allows a unified approach to the design of columns with normal- and high-strength steel concrete materials.
This book offers civil engineers, structural engineers, and researchers studying the mechanical performance of composite structures in the use of high-strength materials to design and construct advanced tall buildings.
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Table of Contents
1. Introduction 2. Materials 3. Test Database 4. Design of Steel-Concrete Composite Columns Considering High Strength Materials 5. Behaviour and Analysis of High Strength Composite Columns 6. Fire Resistance Design 7. Special Considerations for High Strength Materials 8. Joints in Composite Construction
Appendix A. Design Flowchart B. Worked Examples and Comparison Studies C. Design Spreadsheets for Composite Columns
