Glulam Materials and Structures
Durability and Sustainability in Construction
- 1st Edition - September 1, 2026
- Latest edition
- Authors: Shan Gao, Man Xu, Nan Guo
- Language: English
Recent advancements in engineering and materials science have led to a worldwide resurgence in the use of engineered-wood products, particularly glued laminated timber (glulam).… Read more
The book analyzes the materials' response to extreme environments, focusing on critical factors like high-temperature exposure, freeze-thaw cycles, and corrosive atmospheres, providing new perspectives into how glulam performs under these challenging conditions. It also covers cutting-edge advances in glulam beam designs, prestressed joints, and glulam—steel composite members, diving into their mechanical properties and environmental impact. The integration of sophisticated testing methods and equipment, simulation techniques, and performance prediction theories adds significant value to the discussions, making this volume an indispensable resource for readers looking to optimize engineered wood products’ potential in both new and existing structures.
Drawing from the authors’ extensive research, this work also delivers detailed case studies that demonstrate how glulam has been applied in real-world projects. The practical insights in its versatility and effectiveness across various contexts enhance the contents’ overall relevance for audiences in both academia and industry.
- Consolidates the latest theoretical and practical findings, providing readers with up-to-date coverage of current trends and knowledge in glulam technology
- Addresses critical information gaps by offering meticulous analysis of the durability of glulam under extreme conditions, enhancing understanding of its performance in different environments
- Explores innovative designs by introducing new types of glulam beams, connections, and glulam-steel composite structures, highlighting how these contribute to improvements in structural integrity and resilience.
- Includes a number of case studies that illustrate the practical applications of glulam, showcasing successful implementations that address contemporary construction challenges
2. Material durability of glulam
3. Structural beams of glulam
4. Prestressed joints of glulam
5. Glulam—steel composite members
6. Real-world projects and case studies
- Edition: 1
- Latest edition
- Published: September 1, 2026
- Language: English
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Shan Gao
Shan Gao is a member of the Research Center of Metal and Composite Structures at the Harbin Institute of Technology. The research center was founded by Emeritus Professor Shan-tong Zhong and has been focusing on the performance of concrete-filled steel tubular structures for more than 60 years. Since 2008, the team has collaboratively started working on progressive collapse analysis of steel and composite structures through large experiments, multi-scale simulations, and theoretical prediction. More than 30 papers have been published on this topic with more than 400 citations. The research has generated a proliferation of highly cited papers and has also been included in a Chinese design standard against progressive collapse.
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Man Xu
Man Xu received a PhD in Structural Engineering from the Harbin Institute of Technology in 2011 and has been teaching at Northeast Forestry University since. Her research focuses on steel–concrete composite structures and steel–wood composite structures as well as progressive collapse performance of steel and composite structures. She has recently won the first prize in one of China’s Young Teachers’ Contests. She has presided over and completed one project for the National Natural Science Foundation of China, two projects for the Fundamental Research Funds for the Central University, and two laboratory open-funded projects.
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