Liste des propositions du champ Sommaire
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1 Introduction to design and design process 7
1.1 General introduction to structural design 7
1.2 Life phases of a building project 7
1.3 Various requirements related to timber structures 12
1.4 Eurocodes – general assumptions, limit states and detailed design 15
1.5 Concepts used for the limit state design of timber and wood-based products 20
2 Structural properties of sawn timber and engineered wood products 23
2.1 Forestry and the production of sawn timber 23
2.2 Structure of timber 26
2.3 Physical properties of wood 31
2.4 Mechanical properties of wood and timber 33
2.5 Strength grading 42
2.6 Modified wood 46
2.7 Engineered wood products 47
2.8 End-user requirement on sawn timber 53
3 Design of structural timber elements in ultimate limit state 54
3.1 Prismatic beam elements 54
3.2 Design of slender members 62
3.3 Special timber elements 75
3.4 Portal frames 84
3.5 Arches 86
4 Design of timber joints 87
4.1 Dowel-types 88
4.2 Shear capacity of single dowels 89
4.3 Johansen theory – timber-timber joints and panel-timber joints 91
4.4 Steel-to-timber joints 95
4.5 Expressions for the resistance of a single dowel 97
4.6 Tensile capacity of single dowels – rope effect 100
4.7 Combined loading 103
4.8 Joints depending solely on tensile capacity 103
4.9 Brittle failure modes and group effects in dowelled joints 104
4.10 Forces acting at an angle to the grain 107
4.11 Punched metal plate fasteners 107
4.12 Glued joints 109
4.13 Glued-in rods 111
4.14 Creating built-up column sections 112
4.15 Load distribution in joints 112
4.16 Stiffness of joints 114
5 Composite timber elements 115
5.1 Structural elements with full composite action 116
5.2 Structural elements with partial composite action 142
6 Horizontal stabilization 160
6.1 General considerations 160
6.2 The importance of bracing 163
6.3 Fundamental statics 164
6.4 Strength and stiffness requirements for bracing systems 167
6.5 Typical bracing systems for heavy timber structures 174
6.6 Special topics 176
6.7 Bracing of timber framed buildings 178
7 Design for serviceability (SLS) 183
7.1 Performance requirements 183
7.2 Static deformation 185
7.3 Vibration 193
8 Timber building systems for housing 203
8.1 Structural systems overview 205
8.2 Functional requirements and system solutions 211
8.3 Detailed design 217
9 Structural systems for infrastructure 228
9.1 Timber bridges 228
9.2 Other exterior applications 236
9.3 Design for durability, wood protection 239
Symbols 242
Bibliography 246
Non-liability and copyright 253
Publications and websites from Swedish Wood 255
1.1 General introduction to structural design 7
1.2 Life phases of a building project 7
1.3 Various requirements related to timber structures 12
1.4 Eurocodes – general assumptions, limit states and detailed design 15
1.5 Concepts used for the limit state design of timber and wood-based products 20
2 Structural properties of sawn timber and engineered wood products 23
2.1 Forestry and the production of sawn timber 23
2.2 Structure of timber 26
2.3 Physical properties of wood 31
2.4 Mechanical properties of wood and timber 33
2.5 Strength grading 42
2.6 Modified wood 46
2.7 Engineered wood products 47
2.8 End-user requirement on sawn timber 53
3 Design of structural timber elements in ultimate limit state 54
3.1 Prismatic beam elements 54
3.2 Design of slender members 62
3.3 Special timber elements 75
3.4 Portal frames 84
3.5 Arches 86
4 Design of timber joints 87
4.1 Dowel-types 88
4.2 Shear capacity of single dowels 89
4.3 Johansen theory – timber-timber joints and panel-timber joints 91
4.4 Steel-to-timber joints 95
4.5 Expressions for the resistance of a single dowel 97
4.6 Tensile capacity of single dowels – rope effect 100
4.7 Combined loading 103
4.8 Joints depending solely on tensile capacity 103
4.9 Brittle failure modes and group effects in dowelled joints 104
4.10 Forces acting at an angle to the grain 107
4.11 Punched metal plate fasteners 107
4.12 Glued joints 109
4.13 Glued-in rods 111
4.14 Creating built-up column sections 112
4.15 Load distribution in joints 112
4.16 Stiffness of joints 114
5 Composite timber elements 115
5.1 Structural elements with full composite action 116
5.2 Structural elements with partial composite action 142
6 Horizontal stabilization 160
6.1 General considerations 160
6.2 The importance of bracing 163
6.3 Fundamental statics 164
6.4 Strength and stiffness requirements for bracing systems 167
6.5 Typical bracing systems for heavy timber structures 174
6.6 Special topics 176
6.7 Bracing of timber framed buildings 178
7 Design for serviceability (SLS) 183
7.1 Performance requirements 183
7.2 Static deformation 185
7.3 Vibration 193
8 Timber building systems for housing 203
8.1 Structural systems overview 205
8.2 Functional requirements and system solutions 211
8.3 Detailed design 217
9 Structural systems for infrastructure 228
9.1 Timber bridges 228
9.2 Other exterior applications 236
9.3 Design for durability, wood protection 239
Symbols 242
Bibliography 246
Non-liability and copyright 253
Publications and websites from Swedish Wood 255
Ce champ ne permet qu'une seule valeur. La proposition la plus récente ou avec le meilleur score positif ou nul sera sélectionnée.
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