Description |
1 online resource (XXVII, 789 pages) : 548 illustrations |
Series |
RILEM Bookseries, 2211-0844 ; 15 |
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RILEM bookseries ; 15. 2211-0844
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Contents |
Foreword; Contents; RILEM Publications; RILEM Proceedings (PRO); RILEM Reports (REP); Material Design and Mechanical Testing; Performance of Fiber Reinforced Materials: Historic Perspective and Glance in the Future; Abstract; 1 Introduction; 2 Conventional Fibers; 3 CNTs and CNFs; 4 Conclusion; References; Micromechanics-Based Design of Strain Hardening Cementitious Composites (SHCC); Abstract; 1 Introduction; 2 Micromechanics-Based Design Methodology: Scale Linking; 2.1 Steady State Crack Analysis; 3 Micro-Scale: Single Fiber Pullout Behavior; 3.1 Single Fiber Pullout Behavior |
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3.2 High Loading Rate Single Fiber Pullout Behavior3.3 Fatigue Dependent Single Fiber Pullout Behavior; 4 Meso-scale: Fiber Bridging Along Single Crack; 5 Macro-Scale: Multiple Cracking and Tensile Strain Hardening Behavior; 5.1 The Variability of Macroscopic Composite Properties; 5.2 The Variability of Tensile Stress-Strain Properties; 5.3 The Variability of Crack Opening; 5.4 The Variability of Crack Spacing; 5.5 Modeling Multiple Cracking Behavior; 6 Conclusions; Acknowledgement; References |
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Derivation of Crack Bridging Stresses in Fiber Reinforced Cementitious Composites under Combined Opening and Shear DisplacementsAbstract; 1 Introduction; 2 Modeling of Single Fiber Behavior Under Combined Opening and Sliding; 3 Development of Crack Bridging Shear Stress-Crack Opening/Sliding Relation; 4 Shear Transmission on Crack Surface of FRCC Due to Fiber Bridging; 5 Effect of Micromechanical Parameters and Fiber Distribution; 6 Conclusions; References; Bridging Stress of Inclined Fiber in Cementitious Composites Based on Large Deflection Beam Theory; Abstract; 1 Introduction |
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2 Modeling and Analysis2.1 Basic Idea; 2.2 Equivalent Spring Group Stiffness; 2.3 Large Deflection Analysis; 3 Numerical Method; 4 Results and Discussion; 5 Conclusion; References; The Effect of Fiber Orientation on the Mechanical Properties of SHCC; Abstract; 1 Introduction; 2 Fiber Orientation Distribution for Various Thicknesses; 3 Stress-Crack Opening Relations for Single Crack with Various Specimen Thicknesses; 4 Stress-Strain Relation of a Tensile Component with Varying Member Thicknesses; 5 Conclusions; Acknowledgements; References |
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Novel Experimental Method to Determine Crack-Bridging Constitutive Relationship of SHCC Using Digital Image ProcessingAbstract; 1 Introduction; 2 Limitations of Previous Methods; 3 The Novel Den-Dip Method; 4 Test Results and Discussion; 5 Conclusions; Acknowledgements; References; Healing of Interface Between Polyvinyl Alcohol (PVA) Fiber and Cement Matrix; Abstract; 1 Introduction; 2 Experimental Program; 3 Results and Discussion; 4 Conclusions; References; Micromechanics of an Ultra Lightweight Engineered Cementitious Composite Containing Polymeric Latex Admixture; Abstract; 1 Introduction |
Summary |
This is the proceedings of the 4th International Conference on Strain-Hardening Cement-Based Composites (SHCC4), that was held at the Technische Universität Dresden, Germany from 18 to 20 September 2017. The conference focused on advanced fiber-reinforced concrete materials such as strain-hardening cement-based composites (SHCC), textile-reinforced concrete (TRC) and high-performance fiber-reinforced cement-based composites (HPFRCC). All these new materials exhibit pseudo-ductile behavior resulting from the formation of multiple, fine cracks when subject to tensile loading. The use of such types of fiber-reinforced concrete could revolutionize the planning, development, dimensioning, structural and architectural design, construction of new and strengthening and repair of existing buildings and structures in many areas of application. The SHCC4 Conference was the follow-up of three previous successful international events in Stellenbosch, South Africa in 2009, Rio de Janeiro, Brazil in 2011, and Dordrecht, The Netherlands in 2014 |
Subject |
Cement composites -- Service life -- Congresses
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Strain hardening -- Congresses
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Materials science -- Congresses
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Fiber-reinforced concrete -- Congresses
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TECHNOLOGY & ENGINEERING -- Engineering (General)
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TECHNOLOGY & ENGINEERING -- Reference.
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Strain hardening
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Fiber-reinforced concrete
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Building materials
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Continuum mechanics
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Engineering
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Materials science
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Genre/Form |
proceedings (reports)
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Conference papers and proceedings
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Conference papers and proceedings.
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Actes de congrès.
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Form |
Electronic book
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Author |
Mechtcherine, Viktor, editor
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Slowik, Volker, editor
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Kabele, Petr, editor
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ISBN |
9789402411942 |
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9402411941 |
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