Construction Materials and Their Properties for Fire Resistance and Insulation Woodhead Publishing Series in Civil and Structural Engineering Series
Coordonnateurs : Awoyera Paul O., Naser M. Z.
1. Effect of fire on concrete aggregates
2. Thermal and fire resistance of fibres
3. Effect of admixtures on the fire-resistance properties of concrete
4. Reaction of binders during concrete fire
5. Thermal properties of gypsum materials
6. Thermal properties of sprayed fire-resistant materials
8. Thermal behavior and properties of intumescent materials Probabilistic models for thermal properties of insulation and construction materials
Section 2: Concrete’s behavior under fire exposure
9. Overview of the responses of traditional and novel concrete materials in fire
10. Prediction of fire behavior of novel concretes
11. Resistance of zero-cement concrete to fire
12. Behaviour of 3D concrete and ultra-high-performance concrete under fire exposure
13. Application of NDT for monitoring fire resistance of novel concretes
14. Post-fire failure examinations in novel concretes
15. Repair cost and evaluation of fire-damaged novel concrete structures
16. Numerical studies on fire resistance of novel concretes
17. Influence of cooling regimes on fire-damaged novel concretes
18. Effect of fire insulation on fire-damaged novel concrete structures
Section 3: Other construction materials and case studies
19. Fire resistance of construction steel
20. Fire resistance of stainless steel
21. Effect of fire on timber
22. Performance of masonry during fire
23. Insulation and fire resistance of aluminum used for construction
24. Fire resistance properties of composite members
Dr. Awoyera completed a one-year Post-Doctoral research, focusing on lightweight composite development using paper and ceramic wastes, at the University of KwaZulu-Natal, Durban, South Africa. He was awarded the prestigious Split-Site PhD Scholarship by the Commonwealth Scholarship Commission in the United Kingdom, which was tenable at the University of Nottingham, United Kingdom.
Dr. Awoyera is a registered engineer with the Council for the Regulation of Engineering in Nigeria (COREN), a member of the International Association for Engineers (IAENG), and a corporate member of the Nigeria Society of Engineers(NSE). He has published over 100 articles in leading publishing outlets and served as the editor/editorial board member and reviewer for numerous international journals.
Dr. Naser is a tenure-track Assistant Professor at the School of Civil and Environmental Engineering and Earth Sciences and a member of the Artificial Intelligence Research Institute for Science and Engineering (AIRISE) at Clemson University. At the moment, his research group is creating Causal & eXplainable machine learning methodologies to discover new knowledge hidden within systems belonging to the domains of structural engineering and materials science to help realize functional, sustainable, and resilient infrastructure. He is currently serving as the chair of the ASCE Advances in Information Technology committee and on a number of international editorial boards, as well as codal building committees (in ASCE, ACI, PCI, and FiB). Dr. Naser has authored/co-a
- Provides appropriate inputs for material behavior at elevated temperatures generated by fire, which is key to enable the assessment of various construction materials’ fire performance
- Illustrates the effects of fire on materials’ performance to support decisions related to a building’s safe structural rehabilitation
- Includes probabilistic models, numerical studies, and application cases
Date de parution : 11-2024
Ouvrage de 700 p.
15x22.8 cm
Thèmes de Construction Materials and Their Properties for Fire... :
Mots-clés :
Structural engineering; civil engineering; materials in civil engineering; construction materials; analysis of materials; mechanics of materials; cement; concrete; novel concretes; thermal insulation; thermal properties; fire resistance; fire exposure; concrete aggregates; gypsum materials; sprayed fire-resistant materials; intumescent materials; zero-cement concrete; 3D concrete; ultra-high-performance concrete; post-fire failure examination; fire-damaged structures; construction steel; stainless steel; composite members; aluminum; masonry; timber; post-fire performance; fire safety