The Construction Materials Science Manual explains the science behind the properties and behaviour of construction's most fundamental materials (metals, cement and concrete, polymers, timber, bricks and blocks, glass and plaster). In particular, the critical factors affecting in-situ materials are examined such as deterioration and the behaviour and durability of materials under performance. An accessible, easy-to-follow approach makes this book ideal for all diploma and undergraduate students on construction-related courses taking a module in construction materials.
The Construction Materials Science Manual explains the science behind the properties and behaviour of construction's most fundamental materials (metals, cement and concrete, polymers, timber, bricks and blocks, glass and plaster). In particular, the critical factors affecting in-situ materials are examined such as deterioration and the behaviour and durability of materials under performance. An accessible, easy-to-follow approach makes this book ideal for all diploma and undergraduate students on construction-related courses taking a module in construction materials.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Ash Ahmed is a senior lecturer in construction materials science and module leader of several undergraduate and postgraduate materials science modules at the School of the Built Environment and Engineering at Leeds Beckett University. His research specialises in the evaluation of the mechanical and physical properties of commercial materials as well as novel sustainable materials in civil engineering. John Sturges is a visiting professor at the School of the Built Environment and Engineering at Leeds Beckett University. His research interests include the environmental impact of materials, the energy efficiency of buildings and the whole area of sustainability and its impact on UK industry.
Inhaltsangabe
1. Introduction to Materials Part 1: Basic Principles - Materials Structures and Properties 2. Atomic Structure/Arrangement 3. Dislocations, Imperfections & Strengthening Mechanisms 5. Microstructure/Phase Transformation 6. Thermal Properties of Materials 7. Structures Part 2: Individual Types & Classes of MaterialsMetals 8. Ferrous Metals 9. Non-ferrous Metals Inorganics 10. Glass 11. Concrete and Cement 12. Bricks and Mortar 13. Autoclaved Aerated Concrete Organics 14. Polymer Structures 15. Characteristics, Applications and Processing of Polymers 16. Timber 17. Soils 18. Composite Materials Part 3: In-Service Aspects of Materials - Durability and Failure 19. Failure 1: Effects of Stress & Applied Loadings 20. Failure 2: Effects of Environmental Degradation 21. Failure 3: Effects of Fire Part 4: Conclusion - Sustainability of Materials 22. Environmental Impact of Materials
1. Introduction to Materials Part 1: Basic Principles - Materials Structures and Properties 2. Atomic Structure/Arrangement 3. Dislocations, Imperfections & Strengthening Mechanisms 5. Microstructure/Phase Transformation 6. Thermal Properties of Materials 7. Structures Part 2: Individual Types & Classes of MaterialsMetals 8. Ferrous Metals 9. Non-ferrous Metals Inorganics 10. Glass 11. Concrete and Cement 12. Bricks and Mortar 13. Autoclaved Aerated Concrete Organics 14. Polymer Structures 15. Characteristics, Applications and Processing of Polymers 16. Timber 17. Soils 18. Composite Materials Part 3: In-Service Aspects of Materials - Durability and Failure 19. Failure 1: Effects of Stress & Applied Loadings 20. Failure 2: Effects of Environmental Degradation 21. Failure 3: Effects of Fire Part 4: Conclusion - Sustainability of Materials 22. Environmental Impact of Materials