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International Congress on Polymers in Concrete (ICPIC 2018) Mahmoud M. Reda Taha

International Congress on Polymers in Concrete (ICPIC 2018) By Mahmoud M. Reda Taha

International Congress on Polymers in Concrete (ICPIC 2018) by Mahmoud M. Reda Taha

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International Congress on Polymers in Concrete (ICPIC 2018) Summary

International Congress on Polymers in Concrete (ICPIC 2018): Polymers for Resilient and Sustainable Concrete Infrastructure by Mahmoud M. Reda Taha

This volume collects the proceedings from the International Congress of Polymers in Concrete 2018 (ICPIC), held under the theme "Polymers for Resilient and Sustainable Concrete Infrastructure." ICPIC 2018 provides an opportunity for researchers and specialists working in the fields of polymers to exchange ideas and follow the latest progress in the use of polymers in concrete infrastructure. It also showcases the use of polymers and polymer concrete in sustainable and resilient development, and provides a platform for local and overseas suppliers, developers, manufacturers and contractors using polymers, polymer concrete and polymer composites in concrete structures to develop new business opportunities and follow the latest developments in the field.

The International Congress of Polymers in Concrete is an international forum that has taken place every three years for the last 40 years with the objective of following progress in the field of polymers and their use in concrete and construction. Following 15 successful congresses held in London (1975), Austin (1978), Koriyama (1981), Darmstadt (1984), Brighton (1987), Shanghai (1990), Moscow (1992), Oostende (1995), Bologna (1998), Honolulu (2001), Berlin (2004), Chuncheon (2007), Funchal (2010), Shanghai (2013) and Singapore (2015), the 16th ICPIC will take place in Washington, DC, from April 29 to May 1st, 2018.

About Mahmoud M. Reda Taha

Dr. Mahmoud Reda Taha, PEng, Professor, Chair and Regents' Lecturer, UNM Civil Engineering. He is a bridge engineer by training and has been a professor at UNM for 15 years where he taught civil engineering materials, fracture mechanics and structural design classes. His research on nanotechnology has been funded by major funding agencies in the US including NSF, DOD and DOE. He has published extensively on mechanical characterization of nano-modified cementitious and polymer composites with more than 300 papers in refereed journals and conference proceedings. He has 3 issued and 7 pending US patents. He is a Fellow of American Concrete Institute (FACI) and currently serves as the Chairman of ACI committee on polymers and adhesives in concrete, associate editor of ASCE Journal of Materials in Civil Engineering and co-chair of ASCE committee on emerging technologies as part of ASCE Infrastructure Resilience Division.

Table of Contents

Part I Keynote Papers 1 Concrete-Polymer Materials: How Far Have We Come and Were Do We Need to Go?2 Polymer Concrete for Bridge Preservation3 Feasibility Study of the Use of Polymer-Modified Cement Composites as 3D Concrete Printing Material4 Experimental Analysis and Micromechanics-Based Prediction of the Elastic and Creep Properties of Polymer-Modified Concrete at Early Ages5 Durability and Long-Term Performance of Fiber-Reinforced Polymer as a New Civil Engineering Material6 Nano-modified Polymer Concrete - A New Material for Smart and Resilient StructuresPart II Polymer Materials 7 Bio-Based Superplasticizers for Cement Based Materials8 Screening Encapsulated Polymeric Healing Agents for Carbonation Exposed Self-Healing Concrete, Service Life Extension and Environmental Benefit9 Synthesis and Characterization of Superabsorbent Polymer Hydrogels Used as Internal Curing Agents: Impact of Particle Shape on Mortar Compressive Strength10 Evaluation of Microencapsulated Corrosion Inhibitors in Reinforced Concrete11 The Use of Polymer Additions to Enhance the Performance of Industrial and Residential Decorative Concrete Flooring. 12 The Effect of Glucose on the Properties of Cement Paste13 Microstructured Polymers and Their Influences on the Mechanical Properties of PCC14 Stability of Latex in Cement Paste: Experimental Study and Theoretical Analysis15 Experimental Verification of Use Secondary Raw Materials as Fillers to Epoxy Polymer Concrete16 Effects of Anionic Asphalt Emulsion on Early Age Cement Hydration17 Polymer Solutions for Protection of Concrete Exposed to Strong Alkaline or Acid Effluent on Industrial Installations18 Lightweight Filled Epoxy Resins for Timber Restoration19 Effect of Methyl Methacrylate Monomer on Properties of Unsaturated Polyester Resin-Based Polymer Concrete20 Analysis of Mechanical Behavior and Durability of Coatings for Use as Flooring in the Petroleum Industry21 Evaluation of the Performance of Engineered Cementitious Composites (ECC) Produced from Local Materials22 Application of Phase Change Materials (PCM) in Concrete for Thermal Energy Storage23 Mortars with Phase Change Materials and Stone Waste to Improve Energy Efficiency in Buildings24 Physical and Mechanical Properties of Cement Mortars with Direct Incorporation of Phase Change Material25 Mechanical Performance of Fly Ash Geopolymeric Mortars Containing Phase Change MaterialsPart III Polymer Concrete 26 Are Polymers Still Driving Forces in Concrete Technology? 27 Mechanical Properties of Polymer Cement - Fiber Reinforced Concrete (PC-FRC) - Comparison Based on Experimental Studies28 Environmental Temperature and Humidity Adaptability of Polymer Modified Cement Mortar29 Innovative Polymer-Modified Pervious Concrete30 Combined Methods to Investigate the Crack-Bridging Ability of Waterproofing Membranes31 Polymer Concrete for A Modular Construction System - Investigation of Mechanical Properties and Bond Behaviour by Means of X-Ray CT32 Bending and Crack Characteristics of Polymer Lattice-Reinforced Mortar33 The Influence of Specimen Shape and Size on The PCC Compressive Strength Values34 Long-term Investigation on the Compressive Strength of Polymer Concrete with Fly Ash35 Overlays: A Great Use for Polymer Concrete36 PC with Superior Ductility using Mixture of Pristine and Functionalized Carbon Nanotubes37 Contribution of Concrete-Polymer Composites and Ancient Mortar Technology to Sustainable Construction38 Smart Monitoring of Movement and Internal Temperature Changes Within Polymer Modified Concrete Repair Patches.39 PIC: Does It Have Potential?40 A Perspective on 40 Years of Polymers in Concrete History41 Development Length of Steel Reinforcement in Polymer Concrete for Bridge Deck Closure 42 Development of Ultra Rapid-Hardening Epoxy Mortar for Railway Sleepers43 Contribution of C-PC to Resilience of Concrete Structures in Seismic Country Japan44 Precast Polymer Concrete Panels for Use on Bridges and TunnelsPart IV Polymer Fiber Concrete 45 The Effect of Combinations of Treated Polypropylene Fibers on the Energy Absorption of Fiber Reinforced Shotcrete46 Bond Performance of Steel Reinforced Polymer (SRP) Subjected to Environmental Conditioning and Sustained Stress47 High-Strength Strain-Hardening Cement-Based Composites (HS-SHCC) Made with Different High-Performance Polymer Fibers48 Uniaxial Tensile Creep Behavior of Two Types of Polypropylene Fiber Reinforced Concrete49 Dynamic Behavior of Textile Reinforced Polymer Concrete Using Split Hopkinson Pressure Bar50 Steel-Fiber Self-Consolidating Rubberized Concrete Subjected to Impact Loading51 Effect of Fiber Combinations on the Engineering Properties of High Performance Fiber Reinforced Cement Composites52 Application of Fibre Reinforced Polymer Reinforced Concrete for Low Level Radioactive Waste Disposal 53 Efficiency of Polymer Fibers in Lightweight PlasterPart V Polymer Concrete with Recycled Waste 54Properties of Ceramic Waste Powder Based Geopolymer Concrete55 Use of Recycled Polymers in Asphalt Concrete for Infrastructural Applications56 Influence of Method of Preparation of PC Mortar with Waste Perlite Powder on Its Rheological Properties57 Design and Manufacture of a Sustainable Lightweight Prefabricated Material Based on Gypsum Mortar with Semi-Rigid Polyurethane Foam Waste58 Cement Mortars Lightened with Rigid Polyurethane Foam Waste Applied on Site. Suitability and Durability 59 Latex-Modified Concrete Overlays Using Recycled Waste Paint60 Effect of Using Kaolin and Ground Granulated Blast-furnace Slag on Green Concrete Properties61 Lightweight Structural Recycled Mortars Fabricated with Polyurethane and Surfactants62 Hydration in Mortars Manufactured with Ladle Furnace Slag (LFS) and the Latest-Generation of Polymeric Emulsion Admixtures 63 Chemical Resistance of Vinyl-ester Concrete with Waste Mineral Dust Remaining After Preparation of Aggregate for Asphalt MixturePart VI Geopolymers 64 Performance Studies on Self Compacting Geo Polymer Concrete at Ambient Curing Condition65 Effect of 3D Printing on Mechanical Properties of Fly Ash Based Inorganic Geopolymer66 Optimization of Fly Ash Based Geopolymer Using a Dynamic Approach of the Taguchi Method67 Microstructural and Strength Investigation of Geopolymer Concrete with Natural Pozzolan and Micro Silica68 Performance of Steel-Fiber-Reinforced High Performance One-Part Geopolymer Concrete69 Effect of Different Class C Fly Ashes Composition on the Properties of the Alkali Activated Concrete70 Effect of Curing Temperatures on Zero-Cement Alkali-Activated Mortars71 Properties of PVA Fiber Reinforced Geopolymer Mortar72 Thermal Performance of Fly Ash Geopolymeric Mortars Containing Phase Change Materials73 Development of Fiber-Reinforced Slag-Based Geopolymer Concrete Containing Lightweight Aggregates Produced by Granulation of Petrit-T74 Applications of Geopolymers in Concrete for Low-Level Radioactive Waste ContainersPart VII Fiber Reinforced Polymers (FRP) 75Microstructure and Mechanical Property Behavior of FRP Reinforcement Autopsied from Bridge Structures Subjected to In-situ Exposure76 The Influences of Mechanical Load on FRP Composites Subjected to Environmental Corrosion77 Finite Element Analysis of RC Beams Strengthened in Shear with NSM FRP Rods78 Effect of Sustained Load Level on Long-term Deflections in GFRP and Steel-Reinforced Concrete Beams79 Flexural Behavior and Cracks in Concrete Beams Reinforced with GFRP Bars80 Flexural Rigidity Evaluation of Seismic Performance of Hollow-Core Composite Bridge Columns81 Three-Dimensional Numerical Analysis of Hollow-Core Composite Building Columns 82 Pultruded GFRP Reinforcing Bars with Carbon Nanotubes 83 On Mechanical Characteristics of HFRP Bars with Various Types of Hybridization84 Fatigue Behavior Characterization of Superelastic Shape Memory Alloy Fiber-reinforced Polymer Composites85 Strength Performance of Concrete Beams Reinforced with BFRP BarsPart VIII PC with Nanomaterial 86A Comparative Study on Colloidal Nano Silica Incorporation in Polymer Modified Cement Mortars87 Performance of UHPC and Nano-Modified Polymer Concrete (NMPC) Composite Wall Panels for protective Structures 88 Mechanical Characterization of Polymer Nanocomposites Reinforced with Graphene Nanoplatelets89 Oilwell Cement Modified with Bacterial Nanocellulose90 Effect of Incorporating Nano Silica on the Strength of Natural Pozzolan-Based Alkali Activated ConcretePart IX Strengthening & Restoration Using Polymers 91 Review of Polymer Coatings Used for Blast Strengthening of Reinforced Concrete and Masonry Structures92 Evaluation of Polymer-Modified Restoration Mortars for Corrosion Resistance of Sewage Treatment Structures93 Finite Element Modeling of CFRP Strengthened Low Strength Concrete Short Columns94 Improvement Works to Existing Column Stumps by Fiber Reinforced Polymer Strengthening System95 Silicone Resin Enclosing Method Applied for the Maintenance of Steel Bearings96 Bio-based Polyurethane Elastomer for Strengthening Application of Concrete Structures under Dynamic Loadings

Additional information

NGR9783319781747
9783319781747
331978174X
International Congress on Polymers in Concrete (ICPIC 2018): Polymers for Resilient and Sustainable Concrete Infrastructure by Mahmoud M. Reda Taha
Mahmoud M. Reda Taha
New
Hardback
Springer International Publishing AG
2018-04-07
757
N/A
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