Wong / Tan / Ong | Polymers in Concrete Towards Innovation, Productivity and Sustainability in the Built Environment | Buch | 978-3-03835-677-6 | sack.de

Buch, Englisch, 662 Seiten, Format (B × H): 170 mm x 240 mm, Gewicht: 1270 g

Wong / Tan / Ong

Polymers in Concrete Towards Innovation, Productivity and Sustainability in the Built Environment

Collection of selected, peer reviewed papers from the 15th International Congress on Polymers in Concrete (ICPIC 2015), October 19-21, 2015, Singapore.The 80 papers are grouped as follows:Chapter 1 : Polymers in Concrete - Concrete Polymer Composite (C-PC)Chapter 2: Polymer Coatings and Polymer Reinforcement of ConcreteChapter 3: Use of Polymers to Enhance Concrete PerformanceChapter 4: Polymers for Repair of ConcreteChapter 5: Use of Polymers in Green Building MaterialsChapter 6: Use of Polymers in Sustainable Construction and Development
Erscheinungsjahr 2015
ISBN: 978-3-03835-677-6
Verlag: Trans Tech Publications

Collection of selected, peer reviewed papers from the 15th International Congress on Polymers in Concrete (ICPIC 2015), October 19-21, 2015, Singapore.The 80 papers are grouped as follows:Chapter 1 : Polymers in Concrete - Concrete Polymer Composite (C-PC)Chapter 2: Polymer Coatings and Polymer Reinforcement of ConcreteChapter 3: Use of Polymers to Enhance Concrete PerformanceChapter 4: Polymers for Repair of ConcreteChapter 5: Use of Polymers in Green Building MaterialsChapter 6: Use of Polymers in Sustainable Construction and Development

Buch, Englisch, 662 Seiten, Format (B × H): 170 mm x 240 mm, Gewicht: 1270 g

ISBN: 978-3-03835-677-6
Verlag: Trans Tech Publications


Collection of selected, peer reviewed papers from the 15th International Congress on Polymers in Concrete (ICPIC 2015), October 19-21, 2015, Singapore.The 80 papers are grouped as follows:Chapter 1: Polymers in Concrete - Concrete Polymer Composite (C-PC)Chapter 2: Polymer Coatings and Polymer Reinforcement of ConcreteChapter 3: Use of Polymers to Enhance Concrete PerformanceChapter 4: Polymers for Repair of ConcreteChapter 5: Use of Polymers in Green Building MaterialsChapter 6: Use of Polymers in Sustainable Construction and Development
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Weitere Infos & Material


Preface, Committees and Editorial Team, Organizers and Supporting Organizations
Keynote Papers
Are Polymer Concrete Materials and Products Really Sustainable?
Mechanical Behaviour of Engineered Cementitious Composites under Quasi-Static and High Strain Rate Applications
Merging Cement Concrete, Concrete-Polymer Composites and Inorganic Polymer Technologies for Sustainability in Construction and Restoration
Application of Non-Destructive Methods for Quality Control of Concrete Repair Efficiency
Novel Geopolymers Incorporating Wollastonite and Recycled Mixed Plastics
Use of Polymers to Enhance Concrete Performance
Status of Research and Application of Concrete-Polymer Composites in China
FRP Strengthening of Discontinuous Members
Influence of Re-Dispersible Powders on Very Early Shrinkage in Functional Mortars
The Effect of Polymer Emulsion Addition on the Setting Time, Crack Formation and Strength of Cementitious Patch Repair Mortars
Monitoring Fatigue Damage in PC Using Carbon Nanotubes
Recent Development and Application of Polymers in Concrete Technology in Singapore
The Effect of Nano-Silica Particles on Fresh and Hardened State Properties of Polymer Cement Mortars
Chapter 1: Polymers in Concrete - Concrete Polymer Composite (C-PC)
Chemical Resistance of Concrete-Polymer Composites – Comparison Based on Experimental Studies
Polymers in Concrete – The Shielding against Neutron Radiation
Coefficient of Thermal Expansion of Polymer Concrete with Different Polymeric Binders
Comparative Study on the Elastic Modulus of Polymer Concrete
Determination of Polymer Type and Content in Concrete Materials by FTIR and TGA
Development and Application of PIC Form
Influence of Coagulation of Polymer Dispersion on the Properties of Polymer-Modified Mortar
Properties of VA/E/MMA Terpolymer Powder-Modified Mortars
Testing and Specification of Polymer Concrete Materials in Singapore
The Properties of Polymer-Modified Mortars Using Pozzolana Active Admixtures
Effects of HEMC Powder and PP Fiber on the Drying Shrinkage of Cement Mortar
Evaluation of Coating Properties Produced with Polyester Resins and Industrially Processed Components
Use of Polishing Alumina as Flame Retardant in Orthophthalic Polyester Resin Matrix Composites
Study on Crack Bridging Ability of Polymer-Modified Cement Based Compounds for Waterproofing Material
Curing of Polymer-Cement Concrete – Search for a Compromise
Chapter 2: Polymer Coatings and Polymer Reinforcement of Concrete
BFRP Bars as an Alternative Reinforcement of Concrete Structures - Compatibility and Adhesion Issues
Comparison and Evaluation of Retrofitting Different Modes of Concrete Structures by FRP
Economic Aspect of Hybrid Fiber Reinforced Composite
Improvement of the Adhesion between Epoxy-Based Surface Coating and Hydrophobic Impregnated Concrete
Influence of Acrylic Emulsion on Polymer-Cement Waterproof Coating
Influence of Film Thickness and Ambient Temperature to the Protective Performance of Surface Coating Material
New Applications for Polymer Overlays
Fiber Reinforced Polymers in Civil Engineering: Durability Issues
Advanced Active Prestressed CFRP in RCC Structures
Serviceability Behavior of Reinforcement Concrete Beams with Polypropylene and Steel Fibers
Chapter 3: Use of Polymers to Enhance Concrete Performance
Apparent vs. True Bond Strength of Steel and PC with Nanoalumina
Comparison of Ordinary Pores with Internal Cured Pores Produced by Superabsorbent Polymers
Current Status of Expansion Joints Used for Road Bridges in Japan and an Advanced Buried Joint
Effect of Latex Film Distributions on Flexibility of Redispersible Polymer Powders Modified Cement Mortar Evaluated by SEM
Effects of Long-Term Dry Curing on Strength Development of Initially Combined Wet/Dry-Cured and Steam-Cured Hardener-Free Epoxy-Modified Mortars
Influences and Properties of Mortar Modified by Waterborne Polyurethane Latexes
Strengthening of Column Stump Using Glass Fiber Composite Strengthening System
The Performance of Low Air-Entraining Polycarboxylate Superplasticizer
Innovative Applications of Steel Fibres in Concrete Flange of Composite Beam Subjected to Combined Negative Bending and High Axial Tension
Innovative Applications of Steel Fibres on Composite Beam with Profiled Plain Concrete Flange Subjected to Combined Negative Bending and Axial Tension
Chapter 4: Polymers for Repair of Concrete
A Functional Polymer Cement Mortar for Repair of Partially Damaged Asphalt Pavement
Analytical Model for Assessing Reinforced Beams
Application of Wedge Splitting Test for Evaluation of the Bond Strength in Repair System Alumina Cement Concrete vs. PCC Mortar
Concrete Crack Repair with Polymer Modified Materials - The Need for Specialized Training of Applicators, Suppliers, Consultants and Clients
The Need to Uplift Quality Control and Quality Assurance for Specialized Concrete Crack Repair in the South African Construction Industry
Concrete Crack Repair with Polymer Modified Mortars: The Status Quo in the South African Construction Industry and the Way Forward
Crack Propagation Analysis of Polymer Mortars Brazilian Disc Specimens Containing Cracks under Compressive Line Loading
Hard and Soft: Toughening Concrete by Impregnation with Functional Elastomers
Tensile Properties of Polymer Repair Materials - Effect of Test Parameters
Efficient Repair of Crack in SFRC with Low-Viscosity Epoxy Adhesive
Sprayed Polymer Concrete for the Rehabilitation of Sewage Systems
Use of Polymer for Rehabilitation of Uneven Settlement in Concrete Roadbed Slabs of Tunnels
Chapter 5: Use of Polymers in Green Building Materials
Deformability of Mortars Incorporating Polyurethane Foam Waste under Cyclic Compression Fatigue Tests
Development of Polymer Concrete with Non-Standardised Fillers for Innovative Building Materials
Interactions between Non-Ionic Additives and Cement Phases
Development of Polymer Modified Rice Husk Ash Concrete (PMRHAC)
Durability Performance of Polymeric Waste Crumb Rubber as Fine Aggregates Replacement in Concrete
Effect of Perlite Waste Powder on Chemical Resistance of Polymer Concrete Composites
Manufacture of High-Performance Concrete Made with Powdered Polyester Resin Waste and Carboxylic-Ester Based Superplasticizer
Influences of Mixing Procedure on Properties of Fresh Latex Modified Cement Paste(I)
Influences of Latex and Mixing Procedure on Mechanical Properties of Hardened Cement Paste(II)
Influence of Superplasticizers on the Properties of Lightweight Mortar Plaster Made with Recycled Polymers
Chapter 6: Use of Polymers in Sustainable Construction and Development
Restoration of Historic Concrete Structures with Modern Materials - A Case Study
Development of Foam One-Part Geopolymers with Enhanced Thermal Insulation Performance and Low Carbon Dioxide Emissions
Performance of a Fly Ash Geopolymeric Mortar for Coating of Ordinary Portland Cement Concrete Exposed to Harsh Chemical Environments
Lightweight Polyurethane Mortar with Structural Properties
Longitudinal Thermal Movement of Polymer Concrete Irrigation Aqueducts
Properties of Foamed Concrete Using Polymer Based Foaming Admixture
Restoration of Glass Panel – Reinforced Concrete Grillage Roof Shell of Ensor Gallery in Ostend (B)
Strength and Sulfuric Acid Resistance of Three Component Geopolymer
Utilization of Fly Ash with Higher Loss on Ignition for Geopolymer Mortar
Sustainable Mortars with Incorporation of Microencapsulated Phase Change Materials


Eds. Wong Sook Fun, Tan Kang Hai and Ong Khim Chye Gary


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