Composites in Structural Engineering and Architecture
portes grátis
Composites in Structural Engineering and Architecture
Keller, Thomas
Presses Polytechniques et Universitaires Romandes
04/2025
400
Dura
9782889156474
Pré-lançamento - envio 15 a 20 dias após a sua edição
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"1. Composites - Compared
1.1 Terminology
1.2 Comparison across materials
1.3 Scope and content
1.4 References
2. Composites - Compact
2.1 Introduction
2.2 Materials
2.3 Components and members
2.4 Connections and joints
2.5 Manufacturing and installation
2.6 Composites in bridge construction
2.7 Composites in architecture
2.8 Composites in sculpture
2.9 References
3. Composites - Overcoming limitations
3.1 Introduction
3.2 Anisotropy
3.3 Imperfections and tolerances
3.4 Viscoelasticity
3.5 Curing and physical aging
3.6 Ductility
3.7 Fracture
3.8 Fatigue
3.9 Fire
3.10 Durability
3.11 Sustainability
3.12 References
4. Composites - Exploring opportunities
4.1 Introduction
4.2 Lessons learnt from nature
4.3 Structural form
4.4 Transparency
4.5 Function integration
4.6 Hybrid construction
4.7 Modular construction
4.8 References
5. Composites - How to design
5.1 Introduction
5.2 Conceptual design
5.3 Detailed fatigue and adhesive joint resistance verifications
5.4 Execution
5.5 Maintenance and rehabilitation
5.6 References
6. Composites - Where to go
6.1 Introduction
6.2 Lessons learnt and conclusions
6.3 Research needs
6.4 Education
6.5 References
Appendix"
1.1 Terminology
1.2 Comparison across materials
1.3 Scope and content
1.4 References
2. Composites - Compact
2.1 Introduction
2.2 Materials
2.3 Components and members
2.4 Connections and joints
2.5 Manufacturing and installation
2.6 Composites in bridge construction
2.7 Composites in architecture
2.8 Composites in sculpture
2.9 References
3. Composites - Overcoming limitations
3.1 Introduction
3.2 Anisotropy
3.3 Imperfections and tolerances
3.4 Viscoelasticity
3.5 Curing and physical aging
3.6 Ductility
3.7 Fracture
3.8 Fatigue
3.9 Fire
3.10 Durability
3.11 Sustainability
3.12 References
4. Composites - Exploring opportunities
4.1 Introduction
4.2 Lessons learnt from nature
4.3 Structural form
4.4 Transparency
4.5 Function integration
4.6 Hybrid construction
4.7 Modular construction
4.8 References
5. Composites - How to design
5.1 Introduction
5.2 Conceptual design
5.3 Detailed fatigue and adhesive joint resistance verifications
5.4 Execution
5.5 Maintenance and rehabilitation
5.6 References
6. Composites - Where to go
6.1 Introduction
6.2 Lessons learnt and conclusions
6.3 Research needs
6.4 Education
6.5 References
Appendix"
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Composites;Structural Engineering;Architecture;Construction
"1. Composites - Compared
1.1 Terminology
1.2 Comparison across materials
1.3 Scope and content
1.4 References
2. Composites - Compact
2.1 Introduction
2.2 Materials
2.3 Components and members
2.4 Connections and joints
2.5 Manufacturing and installation
2.6 Composites in bridge construction
2.7 Composites in architecture
2.8 Composites in sculpture
2.9 References
3. Composites - Overcoming limitations
3.1 Introduction
3.2 Anisotropy
3.3 Imperfections and tolerances
3.4 Viscoelasticity
3.5 Curing and physical aging
3.6 Ductility
3.7 Fracture
3.8 Fatigue
3.9 Fire
3.10 Durability
3.11 Sustainability
3.12 References
4. Composites - Exploring opportunities
4.1 Introduction
4.2 Lessons learnt from nature
4.3 Structural form
4.4 Transparency
4.5 Function integration
4.6 Hybrid construction
4.7 Modular construction
4.8 References
5. Composites - How to design
5.1 Introduction
5.2 Conceptual design
5.3 Detailed fatigue and adhesive joint resistance verifications
5.4 Execution
5.5 Maintenance and rehabilitation
5.6 References
6. Composites - Where to go
6.1 Introduction
6.2 Lessons learnt and conclusions
6.3 Research needs
6.4 Education
6.5 References
Appendix"
1.1 Terminology
1.2 Comparison across materials
1.3 Scope and content
1.4 References
2. Composites - Compact
2.1 Introduction
2.2 Materials
2.3 Components and members
2.4 Connections and joints
2.5 Manufacturing and installation
2.6 Composites in bridge construction
2.7 Composites in architecture
2.8 Composites in sculpture
2.9 References
3. Composites - Overcoming limitations
3.1 Introduction
3.2 Anisotropy
3.3 Imperfections and tolerances
3.4 Viscoelasticity
3.5 Curing and physical aging
3.6 Ductility
3.7 Fracture
3.8 Fatigue
3.9 Fire
3.10 Durability
3.11 Sustainability
3.12 References
4. Composites - Exploring opportunities
4.1 Introduction
4.2 Lessons learnt from nature
4.3 Structural form
4.4 Transparency
4.5 Function integration
4.6 Hybrid construction
4.7 Modular construction
4.8 References
5. Composites - How to design
5.1 Introduction
5.2 Conceptual design
5.3 Detailed fatigue and adhesive joint resistance verifications
5.4 Execution
5.5 Maintenance and rehabilitation
5.6 References
6. Composites - Where to go
6.1 Introduction
6.2 Lessons learnt and conclusions
6.3 Research needs
6.4 Education
6.5 References
Appendix"
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
