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Hybrid Composite Precast Systems. Numerical Investigation to Construction. Woodhead Publishing Series in Civil and Structural Engineering

  • Book

  • December 2019
  • Elsevier Science and Technology
  • ID: 4772087

Hybrid Composite Precast Systems: Numerical Investigation to Construction focuses on the design and construction of novel composite precast frame systems that permit almost effortless erection and structural efficiency. The precast frame systems discussed in the book are similar to that of steel frames, but offer similar savings to concrete frames. The design of connections and detailed analysis of their structural behavior is discussed in detail. Fundamentals with regards to the post yield behavior of concrete and metal are also presented to illustrate how these two different materials are integrated together to remove individual material drawbacks.

Readers are given a broad introduction to existing technologies that are then combined with a description of the construction methods the author proposes. This book will help the end users become familiar with the existing types of structural forms, not just the "Lego" type frame system that the author proposes.

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Table of Contents

1. Conventional precast assembly 2. Experimental investigation of precast concrete and precast steel-concrete composite frames having novel mechanical joints 3. The investigation of the structural performance of the hybrid�composite precast frames with mechanical joints based on nonlinear finite element analysis 4. L-type hybrid precast frames with mechanical joints using laminated metal plates 5. Novel erection of precast frames using interlocking mechanical couplers 6. Novel precast frame for facile construction of low-rise buildings using mechanically assembled joint to replace conventional monolithic concrete frame 7. Novel pipe rack frames with rigid joints 8. Application to modular construction 9. Precast steel-concrete composite structural frames with monolithic joints 10. Artificial-intelligence-based design of ductile precast concrete beams

Authors

Won-Kee Hong Dr. Won-Kee Hong is a professor of Architectural Engineering at Kyung Hee University, South Korea.. Dr. Won-Kee Hong is a professor of Architectural Engineering at Kyung Hee University, South Korea. He received his master's and PhD degrees from UCLA, and has worked for Englekirk and Hart, Inc. (USA), Nihhon Sekkei (Japan), and the Samsung Engineering and Construction Company (Korea). Dr. Hong has more than 35 years of professional experience in structural and construction engineering. He has been both an inventor and researcher in the field of modularized hybrid composite structures and is the author of more than 100 technical papers and over 100 patents in both Korea and USA. In 2019, Dr. Hong also published "Hybrid Composite Precast Systems: Numerical Investigation to Construction�, in the Woodhead Publishing Series in Civil and Structural Engineering, which has had an enthusiastic reception from readers. In this book, the author presented the basic concepts of artificial neural networks (ANNs) in Chapter 10 which contains an introduction to the implementation of AI-based neural networks applied to the design of reinforced concrete beams. More than 15 papers of Dr. Hong on the area of AI-based structural designs have been published or accepted in Journals published by Elsevier, Taylors and Francis. He also runs a YouTube channel (Deep learning for beginners; Won-Kee Hong, Kyung Hee University) on AI-based structural designs. Dr. Hong is a registered professional and structural engineer both in Korea and the United States.