Bio-aggregate-based building materials [[electronic resource] ] : applications to hemp concretes / / edited by Sofiane Amziane, Laurent Arnaud |
Pubbl/distr/stampa | London, : ISTE |
Descrizione fisica | 1 online resource (334 pages) |
Disciplina | 620.136 |
Altri autori (Persone) |
AmzianeSofiane
ArnaudLaurent |
Collana | Civil engineering and geomechanics series |
Soggetto topico | Building materials |
ISBN |
1-118-57680-2
1-118-57704-3 1-118-57706-X |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Title Page; Contents; Foreword; Chapter 1. Environmental, Economic and Social Context of Agro-Concretes; 1.1. Sustainable development, construction and materials; 1.1.1. Environmental impacts of the construction sector; 1.2. Standardization and regulation: toward a global approach; 1.2.1. Standardization and regulation in force; 1.2.2. Limitations of the normative and regulatory framework; 1.3. The materials: an increasingly crucial element; 1.3.1. Role of the materials in energy consumption; 1.3.2. What is a low-environmental-impact material?; 1.3.3. Constantly-changing regulations
1.4. The specific case of concretes made from lignocellular particles 1.4.1. Development of agro-concretes in the context of France; 1.5. What does the term "Agro-concrete" mean?; 1.5.1. General definition; 1.5.2. Lignocellular resources; 1.5.3. General characteristics of lignocellular agro-resources; 1.6. Conclusions; 1.7. Bibliography; Chapter 2. Characterization of Plant-Based Aggregates; 2.1. Microstructure of the shiv particles; 2.1.1. Structure of the stem of fibrous plants; 2.1.2. SEM observation of hemp shiv particles; 2.1.3. Chemistry of the cell walls 2.1.4. Density and porosity, in the case of hemp shiv 2.2. Particle Size Distribution (PSD); 2.2.1. General characteristics of aggregates made from fibrous plants; 2.2.2. Fiber content; 2.2.3. Methods for characterizing the PSD; 2.2.4. PSD analyses; 2.2.5. Comparison of the results obtained by image analysis; 2.2.6. Characterization of the geometry of the particles; 2.2.7. Characterization of the PSD; 2.2.8. Conclusions; 2.3. Compactness and compressibility; 2.4. Water absorption capacity; 2.5. Bibliography; Chapter 3. Binders; 3.1. Portland cements; 3.1.1. General; 3.1.2. Production 3.1.3. Chemical and mineral composition 3.1.4. Properties; 3.1.5. Environmental impacts; 3.2. Lime; 3.2.1. General; 3.2.2. Aerial lime; 3.2.3. Natural hydraulic limes; 3.3. Lime-pozzolan mixtures; 3.3.1. Natural pozzolans; 3.3.2. Calcined natural pozzolans: metakaolin; 3.3.3. Fly ash; 3.3.4. Blast furnace slag; 3.4. Plaster; 3.4.1. General; 3.4.2. Production; 3.4.3. Chemical and mineralogical composition; 3.4.4. Properties; 3.4.5. Environmental impacts; 3.5. Summary; 3.6. Bibliography; Chapter 4. Formulation and Implementation; 4.1. Objectives; 4.1.1. Preamble; 4.1.2. Traditional applications 4.1.3. Constituents and mixture 4.1.4. Methods of implementation; 4.2. Rules of formulation; 4.2.1. Basis of usual formulations; 4.2.2. Influence of the proportion of paste in the mixture; 4.2.3. Quality of the paste and water content; 4.2.4. Homogeneity of the paste; 4.2.5. The relationship between formulation and strength; 4.2.6. The relationship between formulation and thermo-hydric properties; 4.3. Examples of formulations; 4.3.1. Origin of the data; 4.3.2. Walling application; 4.3.3. Flooring application; 4.3.4. Roofing application; 4.3.5. Other applications; 4.4. Installation techniques 4.4.1. Building a wall using formwork |
Record Nr. | UNINA-9910141602403321 |
London, : ISTE | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Bio-aggregate-based building materials [[electronic resource] ] : applications to hemp concretes / / edited by Sofiane Amziane, Laurent Arnaud |
Edizione | [1st ed.] |
Pubbl/distr/stampa | London, : ISTE |
Descrizione fisica | 1 online resource (334 pages) |
Disciplina | 620.136 |
Altri autori (Persone) |
AmzianeSofiane
ArnaudLaurent |
Collana | Civil engineering and geomechanics series |
Soggetto topico | Building materials |
ISBN |
1-118-57680-2
1-118-57704-3 1-118-57706-X |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Title Page; Contents; Foreword; Chapter 1. Environmental, Economic and Social Context of Agro-Concretes; 1.1. Sustainable development, construction and materials; 1.1.1. Environmental impacts of the construction sector; 1.2. Standardization and regulation: toward a global approach; 1.2.1. Standardization and regulation in force; 1.2.2. Limitations of the normative and regulatory framework; 1.3. The materials: an increasingly crucial element; 1.3.1. Role of the materials in energy consumption; 1.3.2. What is a low-environmental-impact material?; 1.3.3. Constantly-changing regulations
1.4. The specific case of concretes made from lignocellular particles 1.4.1. Development of agro-concretes in the context of France; 1.5. What does the term "Agro-concrete" mean?; 1.5.1. General definition; 1.5.2. Lignocellular resources; 1.5.3. General characteristics of lignocellular agro-resources; 1.6. Conclusions; 1.7. Bibliography; Chapter 2. Characterization of Plant-Based Aggregates; 2.1. Microstructure of the shiv particles; 2.1.1. Structure of the stem of fibrous plants; 2.1.2. SEM observation of hemp shiv particles; 2.1.3. Chemistry of the cell walls 2.1.4. Density and porosity, in the case of hemp shiv 2.2. Particle Size Distribution (PSD); 2.2.1. General characteristics of aggregates made from fibrous plants; 2.2.2. Fiber content; 2.2.3. Methods for characterizing the PSD; 2.2.4. PSD analyses; 2.2.5. Comparison of the results obtained by image analysis; 2.2.6. Characterization of the geometry of the particles; 2.2.7. Characterization of the PSD; 2.2.8. Conclusions; 2.3. Compactness and compressibility; 2.4. Water absorption capacity; 2.5. Bibliography; Chapter 3. Binders; 3.1. Portland cements; 3.1.1. General; 3.1.2. Production 3.1.3. Chemical and mineral composition 3.1.4. Properties; 3.1.5. Environmental impacts; 3.2. Lime; 3.2.1. General; 3.2.2. Aerial lime; 3.2.3. Natural hydraulic limes; 3.3. Lime-pozzolan mixtures; 3.3.1. Natural pozzolans; 3.3.2. Calcined natural pozzolans: metakaolin; 3.3.3. Fly ash; 3.3.4. Blast furnace slag; 3.4. Plaster; 3.4.1. General; 3.4.2. Production; 3.4.3. Chemical and mineralogical composition; 3.4.4. Properties; 3.4.5. Environmental impacts; 3.5. Summary; 3.6. Bibliography; Chapter 4. Formulation and Implementation; 4.1. Objectives; 4.1.1. Preamble; 4.1.2. Traditional applications 4.1.3. Constituents and mixture 4.1.4. Methods of implementation; 4.2. Rules of formulation; 4.2.1. Basis of usual formulations; 4.2.2. Influence of the proportion of paste in the mixture; 4.2.3. Quality of the paste and water content; 4.2.4. Homogeneity of the paste; 4.2.5. The relationship between formulation and strength; 4.2.6. The relationship between formulation and thermo-hydric properties; 4.3. Examples of formulations; 4.3.1. Origin of the data; 4.3.2. Walling application; 4.3.3. Flooring application; 4.3.4. Roofing application; 4.3.5. Other applications; 4.4. Installation techniques 4.4.1. Building a wall using formwork |
Record Nr. | UNINA-9910821107403321 |
London, : ISTE | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|