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Cross-Laminated Timber Design : Structural Properties, Standards, and Safety /
This comprehensive guide explains the design standards, safety protocols, and codes and regulations engineers need to know to use cross-laminated timber as a structural building material. Featuring contributions from experts in the field, Cross-Laminated Timber Design: Structural Properties, Standar...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
New York, N.Y. :
McGraw-Hill Education,
[2020]
|
| Edición: | First edition. |
| Colección: | McGraw-Hill's AccessEngineering.
|
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Cover
- Title Page
- Copyright Page
- Contents
- Preface
- Contributors
- 1 Introduction to Cross-Laminated Timber
- 1.1 Codes and Standards
- 1.2 Structural Design
- 1.3 Connection Design
- 1.4 Hygrothermal Performance of CLT Assemblies: Recommendations for Design, Construction, and Maintenance
- 1.5 Acoustics
- 1.6 Fire
- 1.7 Environmental Aspects of Wood as a Construction Material
- 1.8 Sustainability
- References
- 2 Product Standard for Cross-Laminated Timber
- Introduction
- 2.1 Scope of ANSI/APA PRG 320
- 2.2 Components for CLT
- 2.3 CLT Requirements
- 2.4 CLT Manufacturing Process
- 2.5 Quality Assurance
- 2.6 Conclusion
- References
- 3 Structural Behavior, Analysis, and Design of Cross-Laminated Timber
- Introduction
- 3.1 Introduction to Structural Analysis of CLT
- 3.2 Flexural Members
- 3.3 Combined Loads
- 3.4 Complex Elements
- 3.5 Analytical Methods and Design Procedures for CLT Members
- 3.6 Mechanically Jointed Columns Theory (Eurocode 5)
- 3.7 Design Procedures for CLT Elements Used as Beams and Lintels
- 3.8 Creep Behavior of CLT in Bending
- 3.9 Vibration of CLT Floors
- References
- 4 Structural Design?Connections
- 4.1 General Overview of Connections
- 4.2 Introduction to Self-Tapping Wood Screws and Types Available
- 4.3 Review of Connection Concepts, Failure Modes, and Testing
- 4.4 Review of Connection Types
- 4.5 Connection Design Examples
- 4.6 Brittle and Ductile Connection (45? + 90? Screws)
- 4.7 Compression Reinforcement Example
- References
- 5 Hygrothermal Performance of CLT Assemblies: Recommendations for Design, Construction, and Maintenance
- Introduction
- 5.1 Hygrothermal Behavior of Wood and CLT: Fundamentals
- 5.2 Control of Moisture, Air, and Heat Flows in CLT Assemblies: Design Principles
- 5.3 Accounting for Building Movement
- 5.4 Durability of CLT Buildings: A Holistic Approach
- 5.5 Hygrothermal Performance of CLT Buildings: Control and Maintenance
- Acknowledgments
- References
- Recommended Readings and Additional Resources
- 6 Acoustics
- 6.1 Acoustics in Buildings
- 6.2 Acoustic Code Requirements
- 6.3 Acoustics for CLT Projects
- 6.4 Future Research and Development
- 6.5 Acoustic Consultants
- 6.6 Clarifications
- 6.7 A Note from the Authors
- 7 Fire Safety for CLT Projects
- 7.1 Basics of Timber Reaction to Fire
- 7.2 Building Stability during Fire
- 7.3 CLT Fire Resistance Rating
- 7.4 Interior Finish and Flammability
- 7.5 CLT Behavior under Fire Exposure
- 7.6 Influence of Exposed CLT on a Compartment Fire
- 7.7 Building Design with Mass Timber and CLT
- 7.8 CLT Panel-to-Panel Connections
- 7.9 CLT Protection Methods and Limitations
- 7.10 Fire Protection of CLT Through Penetrations and Joints
- 7.11 Use of CLT within Exterior Walls
- 7.12 Construction Fire Safety
- Further Reading
- Acknowledgment
- References
- 8 Environmental Aspects of Wood as a Construction Material
- 8.1 Introduction
- 8.2 Environmental Impacts of Construction Materials
- 8.3 The Renewability of Wood?An Underappreciated Reality
- 8.4 Wood?More Than Enough
- 8.5 Longevity of Wood Structures
- 8.6 Summary
- References
- 9 Sustainability Related to CLT
- Introduction
- 9.1 Defining Sustainability
- 9.2 Understanding Forest Sustainability
- 9.3 How CLT Contributes to Sustainability Goals
- 9.4 Conclusions
- References
- Index.