Intro; Houston International Forum: Concrete Structures in Earthquake; Agenda; Preface; Contents; List of Forum Authors in Group Photo; 1 Periodic Material-Based Three-Dimensional (3D) Seismic Base Isolators for Small Modular Reactors; 1.1 Introduction; 1.2 Basic Theory; 1.3 Design of Test Specimen; 1.4 Experimental Study; 1.4.1 Frequency Sweeping Test Results; 1.4.2 Seismic Test Results; 1.5 Conclusion; Acknowledgements; References; 2 Shear Behavior Prediction of Non-ductile Reinforced Concrete Members in Earthquake; 2.1 Introduction; 2.2 Analytical Model for D-Regions
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2.3 Verification of Bottle-Shaped Strut (Short Columns and Squat Walls)2.4 Verification of Fan-Shaped Strut (Intermediate Short Columns); 2.5 Conclusions; References; 3 Experimental Study of Novel Concrete Frames Considering Earthquake and Progressive Collapse; 3.1 Introduction; 3.2 Experimental Program; 3.2.1 The Proposed RC Frame with a New Structural Detailing; 3.2.2 The Proposed MHRPC Frame; 3.2.3 Experimental Design; 3.2.4 Experimental Setup; 3.2.5 Material Properties; 3.3 Experimental Results; 3.3.1 Seismic Cyclic Test; 3.3.2 Progressive Collapse Test; 3.4 Conclusions; Acknowledgements
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5 Effect of High-Strength Reinforcement for Shear Strength and Shear-Friction Strength of RC Walls Subjected to Cyclic Lateral Loading5.1 Introduction; 5.2 Test Program; 5.2.1 Major Test Parameters; 5.2.2 Design of Specimens; 5.2.3 Test Procedure and Instrumentation; 5.3 Test Results; 5.3.1 Failure Modes; 5.3.2 Load-Displacement Relationships; 5.4 Evaluation of Shear Strength and Shear-Friction Strength; 5.4.1 Shear Strength; 5.4.2 Web Crushing Strength; 5.4.3 Shear-Friction Strength; 5.5 Conclusion; References; 6 Research on Resilient Reinforced Concrete Building Structural System
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6.1 Introduction6.2 Experimental Work; 6.3 Simulation of Flexural Cracks; 6.3.1 Numerical Analysis with an Fem Program; 6.3.2 Numerical Simulation of Flexural Cracks; 6.4 Design Philosophy for Resiliency; 6.5 Conclusions; Acknowledgements; References; 7 The State of Knowledge and Practice in Concrete Structure Design for Earthquake; Abstract; 7.1 Introduction; 7.2 Evolution in Knowledge and Practice in Concrete Structure Design for Earthquake; 7.2.1 Static Analysis for Earthquake Design in 1973; 7.2.2 Nonlinear Response History Analysis (NRHA) Ensures Building Safety for MCE
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This book gathers 23 papers by top experts from 11 countries, presented at the 3rd Houston International Forum: Concrete Structures in Earthquake. Designing infrastructures to resist earthquakes has always been the focus and mission of scientists and engineers located in tectonically active regions, especially around the "Pacific Rim of Fire" including China, Japan, and the USA. The pace of research and innovation has accelerated in the past three decades, reflecting the need to mitigate the risk of severe damage to interconnected infrastructures, and to facilitate the incorporation of high-speed computers and the internet. The respective papers focus on the design and analysis of concrete structures subjected to earthquakes, advance the state of knowledge in disaster mitigation, and address the safety of infrastructures in general.