Addressing recent trends and future directions, this book presents new opportunities for developing innovative and cost-effective materials and techniques in cement and concrete composites manufacturing. By understanding, predicting, and controlling microstructural changes, mechanical and environmental stresses can be modeled during the life cycle of products. The text delineates methods that optimize structural performance while considering environmental sustainability. It presents information on how to achieve efficient structural systems with innovative lightweight materials designed using fundamental aspects of composite material mechanics.…mehr
Addressing recent trends and future directions, this book presents new opportunities for developing innovative and cost-effective materials and techniques in cement and concrete composites manufacturing. By understanding, predicting, and controlling microstructural changes, mechanical and environmental stresses can be modeled during the life cycle of products. The text delineates methods that optimize structural performance while considering environmental sustainability. It presents information on how to achieve efficient structural systems with innovative lightweight materials designed using fundamental aspects of composite material mechanics.
Barzin Mobasher obtained his BS and MS in civil engineering from the University of Wisconsin-Platteville and Northeastern University in 1983 and 1985, respectively. He received his PhD in civil engineering from Northwestern University in 1990 and was a member of the Technical Staff at USG Corporation during 1990-1991. He joined the Department of Civil and Environmental Engineering at Arizona State University in 1991 as an assistant professor of structural materials. He has been a professor of engineering at ASU since 2004. Dr. Mobasher has led programs involved with the design, analysis, materials testing, and full-scale structural testing of construction and structural materials. His list of publications includes more than 150 research papers in leading professional journals and conference proceedings. He has made fundamental contributions to the field of fiber and textile reinforced concrete materials and mechanics of toughening in cement-based systems, modeling the mechanical and durability of materials, and experimental mechanics. He has served as the Chair of the American Concrete Institute, ACI Committee 544 on Fiber Reinforced Concrete, and has been a reviewer for a variety of journals. For more information about Dr. Mobasher, see Dr.Mobasher's web site at ASU.
Inhaltsangabe
Cement-Based Composites-A Case for Sustainable Construction. Historical Aspects of Conventional Fiber-Reinforced Concrete Systems. Ductile Cement Composite Systems. Textile Reinforcement in Composite Materials. Single Yarns in Woven Textiles: Characterization of Geometry and Length Effects. Introduction to Mechanics of Composite Materials. Mechanical Testing and Characteristic Responses. Fiber Pullout and Interfacial Characterization. Fracture Process in Quasi-Brittle Materials. Tensile Response of Continuous and Cross-Ply Composites. Inelastic Analysis of Cement Composites Using Laminate Theory. Tensile and Flexural Properties of Hybrid Cement Composites. Correlation of Distributed Damage with Stiffness Degradation Mechanisms. Flexural Model for Strain-Softening and Strain-Hardening Composites. Back-Calculation Procedures of Material Properties from Flexural Tests. Modeling of Fiber Reinforced Materials Using Finite Element Method. Flexural Design of Strain-Softening Fiber Reinforced Concrete. Fiber Reinforced Aerated Concrete. Sisal Fiber Reinforced Composites. Restrained Shrinkage Cracking. Flexural Impact Test. Textile Composites for Repair and Retrofit. Retrofit of Reinforced Concrete Beam-Column Joints Using Textile Cement Composites. Dynamic Tensile Characteristics of Textile Cement Composites. Index.
Cement-Based Composites-A Case for Sustainable Construction. Historical Aspects of Conventional Fiber-Reinforced Concrete Systems. Ductile Cement Composite Systems. Textile Reinforcement in Composite Materials. Single Yarns in Woven Textiles: Characterization of Geometry and Length Effects. Introduction to Mechanics of Composite Materials. Mechanical Testing and Characteristic Responses. Fiber Pullout and Interfacial Characterization. Fracture Process in Quasi-Brittle Materials. Tensile Response of Continuous and Cross-Ply Composites. Inelastic Analysis of Cement Composites Using Laminate Theory. Tensile and Flexural Properties of Hybrid Cement Composites. Correlation of Distributed Damage with Stiffness Degradation Mechanisms. Flexural Model for Strain-Softening and Strain-Hardening Composites. Back-Calculation Procedures of Material Properties from Flexural Tests. Modeling of Fiber Reinforced Materials Using Finite Element Method. Flexural Design of Strain-Softening Fiber Reinforced Concrete. Fiber Reinforced Aerated Concrete. Sisal Fiber Reinforced Composites. Restrained Shrinkage Cracking. Flexural Impact Test. Textile Composites for Repair and Retrofit. Retrofit of Reinforced Concrete Beam-Column Joints Using Textile Cement Composites. Dynamic Tensile Characteristics of Textile Cement Composites. Index.
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