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Intro; Foreword I; Foreword II; Preface; Acknowledgements; Summary; Contents; Terminologies and Abbreviations; Terminologies; Abbreviations; List of Figures; List of Tables; 1 Introduction; 1.1 Research Background; 1.1.1 Bamboo Resource; 1.1.2 Industrial Utilization on Bamboo and Development of the Products System; 1.1.3 Application Status of Bamboo in Building Industry; 1.2 Research Scope Definition; 1.2.1 Current Research Focus; 1.2.2 The Application Research of Timber in Building Industry; 1.2.3 The Application Research of Bamboo in Building Load-Bearing Structure
1.2.4 Scope Definition of the Research1.3 Research Status; 1.3.1 Property Study on Bamboo; 1.3.2 Performance Study on Bamboo Building Envelope; 1.3.3 Heat and Moisture Process Model of Building Envelope; 1.3.4 Deficiencies of the Current Research; 1.4 Research Content; 1.4.1 Technical Route; 1.4.2 Chapter Arrangement; References; 2 Model Study on the Application of Bamboo in Building Envelope; 2.1 Hygrothermal Performance Projection of Building Component in Hygric Environment; 2.1.1 Curve Fitting Between Material Hygrothermal Properties and the Hygric Environment
2.1.2 Building Component Hygrothermal Performance in Equilibrium with the Hygric Environment2.2 HAM Model Based on the Künzel Equations; 2.2.1 Künzel Equations of the Coupled Heat and Moisture Process; 2.2.2 Climate and Material Parameters Specially Considered; 2.3 Simulation and Analysis with HAM Model for Building Envelope in North American Typical Climate Zones; 2.3.1 Simulation Model Design; 2.3.2 Results Analysis; 2.4 Summary; References; 3 Hygrothermal Properties' Test on Bamboo; 3.1 Building Envelope-Related Properties and the Definitions; 3.1.1 Basic Properties
3.1.2 Hygric Properties3.1.3 Thermal Properties; 3.1.4 Material Parameters Targeted in the Tests; 3.2 Test on Construction Partition Material; 3.2.1 Test Objects; 3.2.2 Test Items; 3.2.3 Results Analysis; 3.2.4 Discussion; 3.3 Test on Construction Infill Material; 3.3.1 Test Objects; 3.3.2 Test Items; 3.3.3 Results Analysis; 3.3.4 Discussion; 3.4 Summary; References; 4 Hygrothermal Performance Assessment on Bamboo Building Envelope in Typical Climate Regions; 4.1 Properties Comparison Between Corresponding Material Varieties of Bamboo and Timber; 4.1.1 Collection of Reference Timber
4.1.2 Comparison Between Bamboo and Reference Timber4.1.3 Wind Tunnel Test on Bamboo Scrimber and Hardwood; 4.1.4 Discussion; 4.2 Performance Comparison Between Bamboo and Timber Building Envelope; 4.2.1 Simulation Model Design; 4.2.2 Results Analysis; 4.2.3 Discussion; 4.3 Summary; Reference; 5 Hygrothermal Performance Optimization on Bamboo Building Envelope in Hot-Humid Climate Region; 5.1 Layered Construction System; 5.1.1 Timber Layered Construction System; 5.1.2 Related Parameters of Layered Construction; 5.2 Building Envelope Coupled Heat and Moisture Process Simulation
1.2.4 Scope Definition of the Research1.3 Research Status; 1.3.1 Property Study on Bamboo; 1.3.2 Performance Study on Bamboo Building Envelope; 1.3.3 Heat and Moisture Process Model of Building Envelope; 1.3.4 Deficiencies of the Current Research; 1.4 Research Content; 1.4.1 Technical Route; 1.4.2 Chapter Arrangement; References; 2 Model Study on the Application of Bamboo in Building Envelope; 2.1 Hygrothermal Performance Projection of Building Component in Hygric Environment; 2.1.1 Curve Fitting Between Material Hygrothermal Properties and the Hygric Environment
2.1.2 Building Component Hygrothermal Performance in Equilibrium with the Hygric Environment2.2 HAM Model Based on the Künzel Equations; 2.2.1 Künzel Equations of the Coupled Heat and Moisture Process; 2.2.2 Climate and Material Parameters Specially Considered; 2.3 Simulation and Analysis with HAM Model for Building Envelope in North American Typical Climate Zones; 2.3.1 Simulation Model Design; 2.3.2 Results Analysis; 2.4 Summary; References; 3 Hygrothermal Properties' Test on Bamboo; 3.1 Building Envelope-Related Properties and the Definitions; 3.1.1 Basic Properties
3.1.2 Hygric Properties3.1.3 Thermal Properties; 3.1.4 Material Parameters Targeted in the Tests; 3.2 Test on Construction Partition Material; 3.2.1 Test Objects; 3.2.2 Test Items; 3.2.3 Results Analysis; 3.2.4 Discussion; 3.3 Test on Construction Infill Material; 3.3.1 Test Objects; 3.3.2 Test Items; 3.3.3 Results Analysis; 3.3.4 Discussion; 3.4 Summary; References; 4 Hygrothermal Performance Assessment on Bamboo Building Envelope in Typical Climate Regions; 4.1 Properties Comparison Between Corresponding Material Varieties of Bamboo and Timber; 4.1.1 Collection of Reference Timber
4.1.2 Comparison Between Bamboo and Reference Timber4.1.3 Wind Tunnel Test on Bamboo Scrimber and Hardwood; 4.1.4 Discussion; 4.2 Performance Comparison Between Bamboo and Timber Building Envelope; 4.2.1 Simulation Model Design; 4.2.2 Results Analysis; 4.2.3 Discussion; 4.3 Summary; Reference; 5 Hygrothermal Performance Optimization on Bamboo Building Envelope in Hot-Humid Climate Region; 5.1 Layered Construction System; 5.1.1 Timber Layered Construction System; 5.1.2 Related Parameters of Layered Construction; 5.2 Building Envelope Coupled Heat and Moisture Process Simulation