Screen LibraryShort fibre reinforced cementitious composites and ceramics /
This volume shines a new light on short fibre reinfoced cementitious composites and particle reinforced ceramics. It offers insight from various disciplines like civil engineering, material sciences and micro-mechanics, and collects 9 experimental, numerical and theoretical studies written by top re...
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| Group Author: | ; |
|---|---|
| Published: |
Springer,
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| Publisher Address: | Cham, Switzerland : |
| Publication Dates: | [2019] |
| Literature type: | Book |
| Language: | English |
| Series: |
Advanced structured materials,
volume 95 |
| Subjects: | |
| Summary: |
This volume shines a new light on short fibre reinfoced cementitious composites and particle reinforced ceramics. It offers insight from various disciplines like civil engineering, material sciences and micro-mechanics, and collects 9 experimental, numerical and theoretical studies written by top researchers in composite concrete science. The book presents the outcome of the EUROMECH 582 colloquium "Short Fibre Reinfoced Cementitious Composites and Ceramics" held 20 ? 22 March 2017, Tallinn, Estonia. . |
| Carrier Form: | x, 139 pages : illustrations (some color) ; 25 cm. |
| Bibliography: | Includes bibliographical references. |
| ISBN: |
9783030008673 3030008673 |
| Index Number: | TA418 |
| CLC: | TB334 |
| Call Number: | TB334/S559 |
| Contents: |
Intro; Preface; Contents; Contributors; Study of Crack Patterns of Fiber-Reinforced Concrete (FRC) Specimens Subjected to Static and Fatigue Testings Using CT-Scan Technology; 1 Introduction; 2 Experimental Procedure; 2.1 Materials Characterization; 2.2 Fatigue Tests; 2.3 Scanning of the Specimens; 2.4 Circumferential Test; 3 Results and Discussion; 3.1 3D Histograms; 3.2 2D Histograms Along the H Direction; 3.3 2D Histograms Along the D Direction; 4 Summary and Conclusions; References; Experimental Investigation on Bending Creep in Cracked UHPFRC; 1 Introduction; 2 Experimental Investigatio 2.1 Experimental Procedure2.2 Specimens and Test Rigs; 2.3 Concrete Mix; 2.4 Test Program; 2.5 Compressive Creep and Shrinkage; 3 Test Results; 3.1 Bending Tests; 3.2 Residual Strength Tests; 3.3 Compressive Creep and Shrinkage; 4 Conclusions; References; An Initial Report on the Effect of the Fiber Orientation on the Fracture Behavior of Steel Fiber Reinforced Self-Compacting Concrete; 1 Introduction; 1.1 Theoretical Work; 1.2 Overview of Testing Methods; 2 Materials and Methods; 2.1 Fresh Concrete; 2.2 Casting of a Small Plate; 2.3 Preparing Beams from the Plate; 2.4 Drilling of Cylinders 3 Fiber Orientations Measurement by X-Ray Computed Tomography3.1 X-Ray CT of the Beams; 3.2 X-Ray CT of the Cylinders; 4 Strength Experiments and Results; 4.1 Bending Test; 4.2 Split Test; 5 Future Work; 6 Conclusion; References; Non-destructive Evaluation of the Contribution of Polymer-Fibre Orientation and Distribution Characteristics to Concrete Performance during Fire; 1 Introduction; 1.1 Performance of Concrete During Fire; 1.2 X-Ray Computed Tomography; 1.3 Objectives and Significance; 2 Materials and Sample Preparation; 3 Test Methods; 3.1 Thermal Loading; 3.2 CT Scanning 4 Image Processing4.1 Initial Processing Procedures; 4.2 Fibre Identification; 4.3 Fibre Analysis; 4.4 Cracking Analysis; 5 Results and Discussion; 5.1 Results of Fibre Analysis; 5.2 Results of Cracking Analysis; 5.3 Comparison of Fibre and Cracking Characteristics; 5.4 Correlation between Heating and Cracking Characteristics; 6 Conclusions; 7 Future Work; References; Mechanical Characteristics of SFRC Reinforced by New Engineered Steel Fibre; 1 Introduction; 2 Materials; 3 Methods; 4 Results; 5 Discussion; 6 Conclusions; References; Short Composite Fibres for Concrete Disperse Reinforcement 1 Introduction2 Materials and Methods; 3 Concrete Materials and Mix Design; 4 Fibres; 5 Composite Glass Fibres; 6 Composite Carbon Fibres; 7 Hybrid Fibres; 8 Samples; 9 Results and Discussion; 10 Conclusion; References; Influence of the Flow of Self-Compacting Steel Fiber Reinforced Concrete on the Fiber Orientations, a Report on Work in Progress; 1 Introduction; 2 Materials and Methods; 2.1 Concrete Experiments: Fresh Concrete; 2.2 Simulation Experiments: Transparent Replacement Matrix; 2.3 Fiber Position and Orientation Measurement; 3 Results of Casting Experiments |