Engineered bamboo structures. (2022)
- Record Type:
- Book
- Title:
- Engineered bamboo structures. (2022)
- Main Title:
- Engineered bamboo structures
- Further Information:
- Note: Yan Xiao.
- Authors:
- Xiao, Yan, 1961-
- Contents:
- Chapter 1 Introduction - Bamboo for Carbon Neutral Development 1.1 Bamboo Resources 1.2Bamboo as A Modern Building Material 1.3 Bamboo Structures 1.3.1 Construction Using Round Bamboo Culms 1.3.2 Bamboo Reinforced Concrete Structure 1.3.3 Engineered Bamboo Composites 1.3.4. Engineered Bamboo v.s. Engineered Timber Structures 1.4 Code and Standard Issues 1.4.1. Relevant Wood Standards 1.4.2. Standards and Specifications for Bamboo 1.5 Bamboo for Sustainable Future References in Chapter 1 Chapter 2 Production of Engineered Bamboo 2.1 Definition of Glubam 2.2 Manufacturing Process Of Laminated Bamboo Boards 2.2.1 Laminated Thick-Strip Bamboo Board 2.2.2 Laminated Thin-Strip Bamboo Board – Plybamboo 2.3 Cold-pressing Process of Glubam 2.4 Environmental Assessment of Glubam Production 2.4.1 Analysis of Total Energy Consumption of Production 2.4.2 Analysis of Carbon Emissions 2.5 Emerging Technologies 2.5.1 Flattened Bamboo 2.5.2 High Frequency Hot Press Lamination 2.5.3 Bamboo Filament Winding 2.5.4 Cross Laminated Bamboo and Timber (CLBT) 2.5.5 Automation References in Chapter 2 Chapter 3 Material Properties of Glubam 3.1 Basic Physical Properties of GluBam 3.2 Research Background of Mechanical Properties of Engineered Bamboo 3.3 Basic Mechanical Properties of Engineered Bamboo 3.3.1 Relevancy of Existing Specifications 3.3.2 Tensile properties 3.3.3 Compressive behavior 3.3.4 Bending resistance of GluBam 3.3.5 Shear performance 3.3.6 Torsional Behaviors of Glubam 3.3.7Chapter 1 Introduction - Bamboo for Carbon Neutral Development 1.1 Bamboo Resources 1.2Bamboo as A Modern Building Material 1.3 Bamboo Structures 1.3.1 Construction Using Round Bamboo Culms 1.3.2 Bamboo Reinforced Concrete Structure 1.3.3 Engineered Bamboo Composites 1.3.4. Engineered Bamboo v.s. Engineered Timber Structures 1.4 Code and Standard Issues 1.4.1. Relevant Wood Standards 1.4.2. Standards and Specifications for Bamboo 1.5 Bamboo for Sustainable Future References in Chapter 1 Chapter 2 Production of Engineered Bamboo 2.1 Definition of Glubam 2.2 Manufacturing Process Of Laminated Bamboo Boards 2.2.1 Laminated Thick-Strip Bamboo Board 2.2.2 Laminated Thin-Strip Bamboo Board – Plybamboo 2.3 Cold-pressing Process of Glubam 2.4 Environmental Assessment of Glubam Production 2.4.1 Analysis of Total Energy Consumption of Production 2.4.2 Analysis of Carbon Emissions 2.5 Emerging Technologies 2.5.1 Flattened Bamboo 2.5.2 High Frequency Hot Press Lamination 2.5.3 Bamboo Filament Winding 2.5.4 Cross Laminated Bamboo and Timber (CLBT) 2.5.5 Automation References in Chapter 2 Chapter 3 Material Properties of Glubam 3.1 Basic Physical Properties of GluBam 3.2 Research Background of Mechanical Properties of Engineered Bamboo 3.3 Basic Mechanical Properties of Engineered Bamboo 3.3.1 Relevancy of Existing Specifications 3.3.2 Tensile properties 3.3.3 Compressive behavior 3.3.4 Bending resistance of GluBam 3.3.5 Shear performance 3.3.6 Torsional Behaviors of Glubam 3.3.7 Comparison of Basic Mechanical Properties of Engineered Bamboo 3.4 Stress-strain Models for Engineered Bamboo 3.5 Long-term Creep Properties of GluBam 3.6 Aging Behavior of Glubam 3.6.1 Accelerated Aging Tests 3.6.2 Aging Test Specimens and Treatment 3.6.3 Test results and Analysis 3.7 Behavior of Engineered Bamboo under High-strain Rate Loading 3.7.1 Pendulum Impact Behavior 3.7.2 High-strain Rate Compressive Behavior 3.8 Thermal and Fire Behavior of Engineered Bamboo 3.8.1 Thermal effects 3.8.2 Flammability and Fire Behavior of Glubam 3.9 Acoustic Properties of Engineered Bamboo 3.10 Future Research Need and Research Update References in Chapter 3 Chapter 4 Design Strength of Glubam 4.1 Specified and Characteristic Material Properties 4.1.1 Quality assurance 4.1.2 Characteristic properties 4.2 Allowable Stress Design (ASD) 4.2.1 General concept of ASD 4.2.2 ASD based Previous Chinese code 4.2.3 US ASD Design 4.3 Limit State Design Recommendations for Glubam Structures 4.3.1 Recommendation Following Chinese GB Code 4.3.2 Load and Resistance Factor Design (LRFD) 4.3.3 Limit State Design Based on European Code EC-5 4.3.4 Summary of Design Strength Values 4.4 Future Code Development References in Chapter 4 Chapter 5 Connections in Glubam Structures 5.1 Brief Review of Connections used in Timber Structures 5.2 Embedment Strength of Glubam 5.2.1 Experimental Programs 5.2.2 Embedment loading behaviors 5.2.3 Embedment strength 5.2.4 Embedment strength of different glubams 5.2.5 Embedment strength of glubam in arbitrary directions 5.3 Compressive Behavior of Bolted Glubam Joints 5.3.1 Compression Test Program 5.3.2 Experimental Results 5.3.3 Failure Analysis of Bolted Glubam Joints 5.4 Tensile Behavior of Bolted Glubam Joints 5.4.1 Tensile Test Programs 5.4.2 Failure Modes and Load-displacement Relationships 5.4.3 Discussions on Strength of Bolted Connection 5.5 Design Considerations of Bolted Glubam Connections 5.6 Toothed Metal Mending Plate Connected Glubam Joints 5.6.1 Materials and Tensile Strength of Toothed Metal Plate 5.6.2 Tensile Behaviors of Toothed Metal Mending Plated Glubam Joints 5.6.3 Shear Behaviors of Toothed Metal Mending Plated Glubam Joints 5.7 Glued-in Rebar Glubam Joints 5.7.1 Materials and Testing Methods 5.7.2 Experimental Results 5.7.3 Pull-out Strength 5.7.4 Glued-in CFRP Rebar Glubam Joints 5.7.5 Elastic Analysis of Pull-out Mechanisms 5.8 Summary of Glubam Connections References in Chapter 5 Chapter 6 Performance of Glubam Structural Members 6.1 Glubam Bending Members 6.1.1 Design Concepts of Glubam Beams 6.1.2 Summary of Experimental Behaviors 6.1.3 Flexural Stiffness 6.1.4 Flexural Capacities 6.1.5 Moment – Curvature Analysis 6.1.6 Design Considerations for Glubam Beams 6.2 Research Updates on Various Glubam Beams 6.2.1 FRP Enhanced Glubam Beams 6.2.2 Long-term Creep Behavior of Glubam Girders 6.2.3 Fatigue Performance of Glubam Beams 6.3 Glubam I-joists 6.4 Bamboo Concrete Composite (BCC) Beams 6.5 Glubam Members Subjected to Tension 6.6 Glubam Members Subjected to Compression 6.6.1 Columns and Members under Axial Compression 6.6.2 Buckling Theory and Research Background on Timber Columns 6.6.3 Behaviors of Glubam Columns and Analytical Capacities 6.7 Future Research Needs for Engineered Bamboo Components References in Chapter 6 Chapter 7 Glubam Trusses 7.1 Roof Truss Design 7.2 Simple Triangular Glubam Trusses 7.3 Analysis of Glubam Trusses 7.4 Toothed Metal-Plate Connected Glubam Trusses 7.5 Other Types of Glubam Trusses Hybrid Spatial Trusses 7.5.1 Comparison of Conventional and String-beam Truss Systems 7.5.2 Steel - Glubam Hybrid Trusses 7.6 Summary of Glubam Trusses References in Chapter 7 Chapter 8 Engineered Bamboo Structural Walls 8.1 Types of Lightweight Frame Structural Walls Involving Bamboo 8.1.1 Bamboo Panel Sheathed Lightweight Woodframe Walls 8.1.2 Bamboo Panel Sheathed Cold-formed Light-gauge Steel Frame Walls 8.1.3 Glubam Lightweight Frame Walls 8.1.4 Round Bamboo-culm Frame Walls 8.2 Seismic Behavior of Lightweight Bamboo Walls 8.2.1 Plybamboo Sheathed Woodframe Wall 8.2.2 Testing Method 8.2.3 Experimental Performance 8.3 Seismic Analysis of Glubam Shear Walls 8.4 Thermal Performance of Lightweight Frame Walls 8.5 Fire Performance 8.6 Design Recommendations References in Chapter 8 Chapter 9 Design and Construction of Engineered Bamboo Structures 9.1 Modular Mobile Buildings 9.1.1 Modular Panel Units 9.1.2 Modular Mobile Building Design 9.1.3 Construction of Prefabricated Glubam Houses 9.2 Performance Evaluation of Glubam Mobile Buildings 9.2.1 Lateral Resistance of Prefabricated Glubam Mobile House 9.2.2 Comparative Fire-resistance Tests Between Glubam and Light-gauge steel Mobile Houses 9.2.3 Wind Resistance and Water-tightness Study 9.2.4 The Great Wenchuan Earthquake Relief Efforts 9.3 Lightweight Glubam Frame Buildings 9.3.1 Basic Design Features of Lightweight Glubam Frame Structures 9.3.2 Vertical Load Transfer Mechanisms 9.3.3 Lateral Load Transfer Mechanisms 9.4 Performance of Lighweight Glubam Frame Buildings 9.4.1 Seismic Behavior 9.4.2 Fire Performance 9.4.3 In-room Air Quality Evaluation 9.5 Design Example of Lightweight Glubam Frame House 9.5.1 Computation of Loads 9.5.2 Design of Structural Components 9.6 Glubam Heavy Frame Structures 9.6.1 Glubam Single Story Frames 9.6.2 Design Example of A Multi-story Glubam Frame Building References in Chapter 9 Appendix - Index … (more)
- Edition:
- 1st
- Publisher Details:
- Boca Raton : CRC Press
- Publication Date:
- 2022
- Extent:
- 1 online resource, illustrations (black and white)
- Subjects:
- 624.1897
Bamboo construction - Languages:
- English
- ISBNs:
- 9781000554113
9781000554090
9781003204497 - Related ISBNs:
- 9781032063959
- Notes:
- Note: Includes bibliographical references and index.
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- Physical Locations:
- British Library HMNTS - ELD.DS.673020
- Ingest File:
- 10_011.xml