Oral Presentations
ST1 - Hydration Chemistry and Structure of Cement Systems
ST2 - Characterization Techniques
ST3 - Sustainable Development and Climate Change Initiatives
ST4 - Durability and Degradation of Cement Systems
ST5 - Innovations in Cement and Concrete Science
ST6 - Rheology and Early-Age Properties of Cement Systems
ST7 - Bridging the Gap Between Research and Standards
ST8 - Materials Performance Lessons
ST1 - Hydration Chemistry and Structure of Cement Systems
Paper
No. | Title / Author(s) |
M1-01 Hydration of Cement and Cement Phases
|
| M1-01.1 | Understanding of Reactional Sequences and Limiting Stages during Tricalcium Aluminate Hydration with and without Gypsum
H. Minard, S. Garrault, A. Nonat
| | M1-01.2 | Application of Sol-gel Technique to Synthesize Inorganic Binder Materials with Upgraded Hydration Characteristics
M. Palou, M. Dovál, M. Drábik
| | M1-01.3 | Hydration Kinetics of Calcium Aluminate Cement with Calcium Sulfate Hemihydrate in Presence of Li+ and Tartaric Acid
F. Goetz-Neunhoeffer
| | M1-01.4 | Synthesis and Hydration of Tricalcium Silicate
M. Costoya, S. Bishnoi, E. Gallucci, K.L. Scrivener
| | M1-01.5 | Time Dependent Changes in the Internal Chemical Evolution of Blended OPC Cements over a 20 Year Period
K. Luke, E.E. Lachowski
|
M1-02 Microstructure of Cement Paste Systems I
|
| M1-02.1 | The Shrinkage Behavior of Decalcified Cement Pastes
C. Wan, H. Jennings, J. Thomas, J. Chen, Z. Kang, Q. Yin, L. Liu
| | M1-02.2 | Effective Surface Area of Hardened Cement Pastes
S. Tada, H. Utsumi
| | M1-02.3 | Strength Development and its Microstructure of Eco-Cement Paste
K. Kurumisawa, T. Nawa, Y. Hirukawa
| | M1-02.4 | Microstructure of Steel-Cement Paste Contact Zone in Concrete Modified with Mineral Additives and Chemical Admixtures
J. Jasiczak, J.M. Januszewski
| | M1-02.5 | Effects of Humidity Condition for Drying of the Sample Preparation on the Pore Structure of the Hardened Portland Cement Paste
K. Asaga, T. Kasuga, H. Kuga, M. Sakamoto
| T1-03 Water/Cement System Interactions
|
| T1-03.1 | Unifying Autogeneous and Drying Shrinkage of Cement Paste by the Use of Isothermal Sorption/Desorption Curves
J-Ph. Thierry, G. Chanvillard
| | T1-03.2 | Influence of Alkali Chloride on Surface Properties and Solubility of C-S-H
P. Henocq, J. Marchand, E. Samson
| | T1-03.3 | States of Water in Hydrated Cement Paste: Powers and Brownyard Revisited
R.A. Livingston, N.M. Nemes, D.A. Neumann
| | T1-03.4 | The Role of Water During Setting and Hardening of Tricalcium Silicate Paste
M.W. Grutzeck, B. O'Hare, R.A. Steinle, A. Benesi
| | T1-03.5 | Influence of Water Chemical Potential on the Phase Assemblages of the CaO-Al2O3-CaSO4-H2O System at 25°C
D. Damidot, B. Albert, B. Guy
| | T1-03.6 | The Phase Transformation of Calcium Sulphate Sub-Hydrates Reacting with Water
C. Pritzel, R. Trettin
|
T1-04 Microstructure of Cement Paste Systems II
| | T1-04.1 | Phosphorus Effect on Physical and Mechanical Properties: Relation between Clinker Microstructure and Hydration
E. Moudilou, F. Amin, B. Bollotte, J.H. Thomassin, P. Le Coustumer, Y. Lefrais
| | T1-04.2 | Investigations Into the Microstructure of Fresh Portland Cement Mortar
K.O. Kjellsen, S. Diamond
| | T1-04.3 | Study of the Influence of Soluble Ions on Morphological and Microstructural Properties of Synthetic Ettringite
A. Lo Presti, G. Artioli, A. Bravo, F. Cella, T. Cerulli, M. Magistri
| | T1-04.4 | Microstructure Development in Calcium Aluminate Cement - Fly Ash Mixes
A. Hidalgo, M.C. Alonso, J.L. García, S. Petit, L. Fernández Luco, C. Andrade
| | T1-04.5 | Structure Analysis of Glass of CaO-Al2O3-SiO2 System by Means of NMR
S. Goto, H. Fujimori, T. Tsuda, K. Ooshiro, S. Yamamoto, K. Ioku
|
W1-05 Thermodynamic Modelling
| | W1-05.1 | Thermodynamic and Structural Study of the Substitution of Si by Al in C-S-H
X. Chen, I. Pochard, A. Nonat
| | W1-05.2 | The Distribution of Sulfate in Hydrated Portland Cement Paste
T. Matschei, R. Skapa, B. Lothenbach, F. Glasser
| | W1-05.3 | The Influence of Superplasticizers on the Hydration of Portland Cement
B. Lothenbach, F. Winnefeld, R. Figi
| | W1-05.4 | C-S-H Solubility Modeling at Different Temperatures
J.A. Gisby, R.H. Davies, A.T. Dinsdale, M. Tyrer, F.P. Glasser, J. Hill, P. Livesey, C. Walker
| | W1-05.5 | Calculation of Critically Supersaturated Domains with Respect to Ettringite in the CaO-Al2O3-CaSO4-H2O System at 20°C
D. Damidot
| | W1-05.6 | The Work by Powers and Brownyard Revisited: Part 3
H.J.H. Brouwers
|
W1-06 Early Hydration of Cement and Cement Phases
|
| W1-06.1 | Influence of Aluminate Hydrate and Iron Hydroxide Precipitation on Early-Age C3S Hydration Kinetics
J-Ph. Perez, D. Sorrentino
| | W1-06.2 | Effect of Temperature on the Development of C-S-H during Early Hydration of C3S
A. Nonat, M. Zajac, S. Garrault, J.-P. Korb
| | W1-06.3 | Crystal Chemistry and Microstructure of Hydrated Phases Occurring During Early OPC Hydration
J. Neubauer, F. Goetz-Neunhoeffer, U. Holland, D. Schmitt, P. Gaeberlein, M. Degenkolb
| | W1-06.4 | In Situ Measurements of the Cement Hydration Profile During the Induction Period
J.S. Schweitzer, R.A. Livingston, C. Rolfs, H.-W. Becker, S. Kubsky, T. Spillane, M. Castellote, P.G. de Viedma
| | W1-06.5 | Investigation of the Early Dissolution Behavior of C3S
D. Damidot, F. Bellmann, B. Möser, T. Sovoidnich
|
TH1-08 Numerical Modelling
|
| TH1-08.1 | Modeling of Hydration of Cement-based Composed Binders: Phenomenological Approach
L. Buffo-Lacarrière, A. Sellier, G. Escadeillas, A. Turatsinze
| | TH1-08.2 | The Nature of Cohesion Forces in Hardened Cement-Based Materials: the View from the Nano-scale
R.J.-M. Pellenq, A. Gmira, H. Van Damme
| | TH1-08.3 | Numerical Modeling of Portland Cement Hydration Based on Particle Kinetic Model and Multi-Component Concept
I. Maruyama, T. Matsushita, T. Noguchi
| | TH1-08.4 | Modeling Mechanical Properties of Cement-Based Materials from their Microstructure
A. Guidoum, I. Jaouadi, S. Bishnoi, P. Navi
| | TH1-08.5 | Fundamental Reaction-Transport Model for Simulating Microstructure Development in Hydrating Cement Pastes
J.W. Bullard
| | TH1-08.6 | Micro-Structural Modelling of Cementitious Materials Using Vector Approach
S. Bishnoi, K.L. Scrivener
|
TH1-09 Metal Interactions with Cement Phases
|
| TH1-09.1 | Solubility of Fe-Ettringite and its Solid Solution with Al-Ettringite
G. Moeschner, B. Lothenbach, F. Winnefeld, A. Ulrich, R. Figi, R. Kretzschmar
| | TH1-09.2 | Synthesis and Characterisation of Lithium and Sodium Doped C-S-H
L.D. Mitchell, J.C. Margeson, J.J. Beaudoin
| | TH1-09.3 | Application of Theoretical Approaches, XRD and XAFS Spectroscopy to Identify Lanthanide Binding Mechanisms in C-S-H Phases
P. Mandaliev, E. Wieland, J. Tits, R. Dähn, S. Churakov
| | TH1-09.4 | The Effect of Cement Hydration on the Release Mechanism of Soluble Chromates
M. Magistri, T. Cerulli, D. Padovani, F. Cella, A. Lo Presti
| | TH1-09.5 | Factors Influencing Colour in White Portland Cements
D.E. Macphee, J.A. Duffy, D. Herfort
| | TH1-09.6 | Effect of Competing Ion on the Solidification of Cr3+ and Cr6+ During the Formation of Ettringite
J.-W. Ahn, K.-S. You, D.-Y. Han, K.-H Cho
|
ST2 - Characterization Techniques
M2-01 Physical Properties of Cement Systems I
Paper
No. | Title / Author(s) |
| M2-01.1 | Thermodynamics of Mercury Porosimetry and Effective Surface Area of Hardened Cement Pastes
H. Utsumi, S. Tada
| | M2-01.2 | The Early Stage of Cement Hydration: Measurement of the Particle Size Distribution at Different Times
A. Mueller, U. Stark, S. Erfurt
| | M2-01.3 | The Measurement of the Pore Volume of Hardened Cement Mortar by the Water Vapor Desorption Method
T. Hayakawa, S. Takahashi
| | M2-01.4 | Characterization of the Pore Structure of Hardened Self-Compacting Cement Paste
V. Boel, K. Audenaert, G. De Schutter
| | M2-01.5 | Investigations on the Influence of Coarse Glass Powder on the Properties of Cement Paste Using Electrical Impedance
N. Neithalath, N. Schwarz, M. DuBois
| | M2-01.6 | Pozzolanic Reactivity of the Siliceous Wastes
M.N. Oudjit, K. Arroudj, M. Lanez, A. Bali, A. Tagnit-Hamou
|
M2-02 X-Ray Based Methods
|
| M2-02.1 | Phase Composition and Reaction Kinetics of OPC Hydration by In Situ Transmission XRD using a Focusing Elliptical Mirror
S.B. Feldman, P. Sandberg, D. Brown, F. Serafin
| | M2-02.2 | XRD-Rietveld Quantitative Analysis of Glass-Containing By-Products used in the Brazilian Cement Industry
L.A. Gobbo, L.M. Sant' Agostino, L.Z. D'Agostino
| | M2-02.3 | Characterization of Different Water Contents of Ettringite and Kuzelite
H. Pöllmann
| | M2-02.4 | Fingerprinting South African Cements
M.J. Kearns
| | M2-02.5 | Comparison Between Wet Chemical Analysis and Rietveld Method Quantification in White Cement Samples
L.A. Gobbo, M.A. Cincotto, V.A. Quarcioni
| | M2-02.6 | Progress in Mathematical Modeling using CemQuant Software for Quantitative Phase Analysis of Portland Cement
B. Feret, V.J.F. Feret
|
T2-03 Physical Properties of Cement Systems II
|
| T2-03.1 | Rheology of Penetrations Tests I: Theory and Finite Element Simulations
R.J. Flatt, D. Lootens, N. Roussel, P. Jousset
| | T2-03.2 | Ultrasonic Monitoring of Setting and Hardening Behaviour of Concrete and Mortar with Blast Furnace Slag Cement
N. Robeyst, E. Gruyaert, N. De Belie
| | T2-03.3 | Quantitative Morphological Characterization of Cement Particles of Different Milling Systems and its Relationship with Physical Properties of Cements
P.K. Panigrahy, M. Medhe, R.M. Sahu, S.P. Pandey, A.K. Chatterjee
| | T2-03.4 | Intrinsic Elastic Properties of Calcium Silicate Hydrates by Nanoindentation
E. Lesniewska, C. Plassard, I. Pochard, A. Nonat
| | T2-03.5 | Rheology of Penetrations Tests II: Penetrometers, Vicat and Hilti Needles
D. Lootens, N. Roussel, R.J. Flatt
|
T2-04 Novel Characterization Techniques
|
| T2-04.1 | Test Method for Determining Coefficient of Thermal Expansion of High-Performance Concrete at Early Age
D. Cusson, T. Hoogeveen
| | T2-04.2 | Hexagonal or Trigonal Structure of Ettringite Revisited by Raman Spectroscopy
G. Renaudin, R. Segni, F. Leroux, C. Taviot-Gueho
| | T2-04.3 | Tricalcium Silicate Hydration Studied Using Quasielastic Neutron Scattering: Insights on the Effects of Sucrose
V.K. Peterson, M.C. Garci-Juenger
| | T2-04.4 | Comparison Between NMR Non Destructive Method and Common Invasive Methods Used for Concrete Structuration Evolution
J. Magat, S. Care, P. Faure, T. Chaussadent
| | T2-04.5 | Recent Progress in Solid-State NMR of Quadrupolar Nuclei. Application to the Characterization of Hydration and Sulfate Attack Products
J.-B. d'Espinose De Lacaillerie, F. Barberon, C. Lenain, Z. Gan
|
W2-05 Thermal Analysis Methods
|
| W2-05.1 | Using Isothermal (heat conduction) Calorimetry to Study the Effect of Mixing Intensity on Reaction Rate of Cement Mortars
L. Wadsö
| | W2-05.2 | Influence of 'Aluminic' Pozzolans, Quartz and Gypsum Additions on Portland Cement Hydration
R. Talero, V. Rahhal
| | W2-05.3 | Derivative Conduction Calorimetry
J.M. Makar, G.W. Chan
| | W2-05.4 | Towards a Numerical Model for the Rate of Heat Evolution in Concrete Based on Binder Chemistry and w/c Ratio
Y. Ballim, P.C. Graham, C.J. Greensmith
|
W2-06 Synchroton Based Methods
|
| W2-06.1 | Influence of SO3 and MgO on Clinker Mineralogical Composition: An 'in-situ' HTXRD Study
M. Marchi, U. Costa, G. Artioli
| | W2-06.2 | The Development and Utility of In-Situ Synchrotron Diffraction for Studying Oil Well Cement Hydration at Elevated Temperatures and Pressures
A.P. Wilkinson, A.C. Jupe, K. Luke, G.P. Funkhouser
| | W2-06.3 | Effect of Admixture on Cement Hydration Kinetics by Synchrotron XRD and Isothermal Calorimetry
P. Sandberg, C. Porteneuve, F. Serafin, J. Boomer, N. Loconte, V. Gupta, B. Dragovic, F. Doncaster, T. Vogt, L. Alioto
| | W2-06.4 | Development of Time-resolved 3D-diffraction-tomography to Study Ongoing Carbonation in Concrete
A. González-Saborido, M. Tyrer, S.D.M. Jacques, M. Vickers, P. Barnes
| | W2-06.5 | Quantitative Phase Analysis of Belite Portland Cements from Synchrotron X-ray Powder Diffraction
A.G. de la Torre, M.A.G. Aranda, K. Morsli, A.J.M. Cuberos, M. Zahir
| | W2-06.6 | The Use of X-ray Absorption Spectroscopy for Speciation Studies in Cementitious Systems
E. Wieland, M. Vespa, R. Dähn, D. Grolimund, A.M. Scheidegger
|
TH2-07 Applications of Rietveld Analysis
|
| TH2-07.1 | Quantitative Study of Cementitious Materials by X-Ray Diffraction/ Rietveld Analysis Using an External Standard
G. Le Saoût, T. Füllmann, V. Kocaba, K.L. Scrivener
| | TH2-07.2 | Rapid Determination of the Phase Assemblage in Hydraulic Binders with High Accuracy and Precision
J. Strunge, M. Paul
| | TH2-07.3 | Effect of Curing Temperature and Water to Cement Ratio on Hydration of Cement Compounds
T. Matsushita, S. Hoshino, I. Maruyama, T. Noguchi, K. Yamada
| | TH2-07.4 | The Effects of Particle Statistics on Quantitative Rietveld Analysis of Cement
L.D. Mitchell, P.S. Whitfield, J.J. Beaudoin
| | TH2-07.5 | Refined Ettringite Structure for Quantification of Hydration in Cement Pastes
F. Goetz-Neunhoeffer, J. Neubauer
| | TH2-07.6 | Continuous On-Line Measurement of Cement and Clinker Mineralogy for Quality Control and Optimisation Using X-Ray Diffraction
P. Storer
|
TH2-08 Microscopy Based Analysis
|
| TH2-08.1 | Nanoscale Investigation of Particle Interactions at the Origin of the Cohesion of Cement
I. Pochard, C. Plassard, E. Lesniewska, C. Labbez, B. Jönsson, A. Nonat
| | TH2-08.2 | Cryotransfer Scanning Electron Microscopy on Cementitious Systems: Applications and Examples
H. Pöllmann, R. Wenda, M. Fylak, J. Göske, W. Kachler
| | TH2-08.3 | Microstructural Studies of Early Age Hydration of OPC Using TEM
E. Gallucci, P. Mathur, K. Scrivener
| | TH2-08.4 | Nanoscale Characterization of Hydration Processes by Means of High Resolution Scanning Electron Microscopy Imaging Techniques
B. Möser, J. Stark
| | TH2-08.5 | Nucleation-growth and Diffusion Processes Studied by Atomic Force Microscopy and Nanoconductimetry
E. Lesniewska, H. Di Murro, E. Gallucci, D. Sorrentino, C. Vernet
| | TH2-08.6 | Parameters Influencing the Microstructural Development of Cementitious Systems. A Model System Approach
E. Gallucci, H. Di Murro, D. Sorrentino, K. Scrivener, E. Lesniewska, C. Vernet
|
ST3 - Sustainable Development and Climate Change
M3-01 Clinker Chemistry
Paper
No. | Title / Author(s) |
| M3-01.1 | Influence of Alkalis and Sulphates on the Mineralogical Composition of Clinker
E. Gotti, M. Marchi, U. Costa
| | M3-01.2 | Analysis of Trace Elements in Clinker Based on Supervised Clustering and Fuzzy Association Rule Mining
F.D. Tamás, F.P. Pach, J. Abonyi
| | M3-01.3 | Effect of Phosphor on the Formation of Alite-Rich Portland Clinker
Z. Guan, Y. Chen, S. Guo, S. Qin
| | M3-01.4 | Influence of Foreign Oxides on Lattice Parameters and Reactivity of Pure Clinker Phases of OPC
D. Stephan, J. Plank
|
M3-02 Sustainable Development and Climate Change
|
| M3-02.1 | Allocating Emissions Signatures and Enrichment of Heavy Metals in PM2.5 According to the Use of Alternative Raw Materials
M. Larrion, C. Gutierrez-Cañas, J.A. Legarreta, J.R. Vega, E. Garcia, S. Astarloa, E. Guede, C. Urcelay
| | M3-02.2 | Cement Industry, Climate Change and Kyoto Protocol: Canadian Perspective
G. J. Venta
| | M3-02.3 | Product Quality and Sustainability in the Cement Industry
R.B. Isaksson
| | M3-02.4 | Containment, Capture, Recycling and Sequestration of Emitted Carbon Dioxide in the Context of the Indian Cement Industry
A.K. Chatterjee
| | M3-02.5 | Life-Cycle Assessment (LCA) Study Adopted in Cement Industry for Sustainable Development
S.N. Pati, A.K. Solankey, K. Mohan
| | M3-02.6 | Development of Geopolymer Concrete Supported by System Analytical Tools
A. Buchwald, K. Dombrowski, M. Weil
|
M3-03 Clinker Production: Grinding and Fly Ash Use
|
| M3-03.1 | Study on the Easily Grinding Portland Cement Clinker
W.S. Zhang, J.Y. Ye, H.X. Wang, Y. Wang
| | M3-03.2 | Variation in Fineness of Portland Cement and its Effects on Properties of High Strength Concrete
L. Qureshi, A. Jawad, M.J. Munir
| | M3-03.3 | Fly Ash as an Alternative Raw Material for Portland Cement Clinker Synthesis
M. Komljenovic, L.-J. Petrasinovic-Stojkanovic, N. Jovanovic, Z. Bascarevic, A. Rosic
| | M3-03.4 | Operational Benefits of Using High-Carbon Fly Ash in Cement Manufacture
J.I. Bhatty, J. Gajda, F. Botha, M. Bryant
| | M3-03.5 | Measurements of the Influence of Storage Time and Storage Temperature on Properties of Raw Inorganic Binders and Dry Mortars
A. Anderberg, L. Wadsö
|
T3-05 Clinker Production: Alternative Fuels and Natural Raw Materials
|
| T3-05.1 | Effect of Fluxes and Mineralizers in Clinkerization of High Sulphur Cement Raw Mix
H.U. Shah, Z. Din, N.A. Qureshi, A. Bashir
| | T3-05.2 | Theoretical Evaluation on Possibility of Using Basaltoid as Aluminosilicate Component in Raw Mix for Portland Cement Clinker Synthesis
R. Sanjaasuren, Ts. Erdenebat, P.F. Rumyantsev
| | T3-05.3 | Incorporating Paint Sludge in the Manufacture of OPC Clinker. Part I: The Effect on Burnability
J.H. Potgieter, S.S. Potgieter-Vermaak
| | T3-05.4 | The Effect of Sulfur to Alkali Ratio on Clinker Properties
S. Plang-Ngern, M. Rattanussorn
| | T3-05.5 | Use of 100% Unconventional Fuel in Cement Kiln - A Case Study
M.K. Mukherjee, M.M. Tiwari
| | T3-05.6 | Influence of Using Meat and Bone Meal as an Alternative Fuel on Formation and Properties of Portland Cement Clinker
D.C. Nastac, M. Hupa, M. Muntean
|
T3-06 Supplementary Cementing Materials: Slag
|
| T3-06.1 | Alkali-Activated Carbonatite and Slag Composite Cementitious Materials
Q.J. Yu, S.Y. Zhao, F. Qiao, X.G. Zhao, S.H. Yin, Z.Y. Wen
| | T3-06.2 | ZEWA (Zero waste) Process: A New Way for Co-Processing Steel Slag
F.P. Sorrentino, M. Gimenez
| | T3-06.3 | Waste Gypsum-Activated Blast Furnace Slag Composites: Effect of Aggregate Type on Strength Development
R. X. Magallanes-Rivera, J.I. Escalante-Garcia, A. Gorokhovsky
| | T3-06.4 | An Investigation on Enhancing Blast Furnace Slag Content in Portland Slag Cement through Alkali Activation
S.B. Hegde, P. Chelladurai
| | T3-06.5 | Influence of the Type and Concentration of Sodium Alkaline Activator on the Hydration Process of Blast Furnace Slag
J. Deja
| | T3-06.6 | Alkali-Activated Slag Concrete Development and their Practical Use
V. Bilek, M. Urbanova, J. Brus, D. Kolousek
|
T3-07 Interactions with Heavy Metals: Clinkering
|
| T3-07.2 | The Use of Blast Furnace Slag to Decrease Heavy Metals from Electric Arc Furnace Dust Leachate: a Column Leaching Test
G. Laforest, J. Duchesne
| | T3-07.3 | Behavior of Lead and Chromium Ions as Toxic Heavy Metals Between AFt and AFm Phases Based on C3A and C4A3S
T.H. Ahn, C.P. Wreden
| | T3-07.4 | Influence of Zn(II) ions on the Hydration of Calcium Sulfoaluminate Cement - Application to Nuclear Waste Conditioning
C. Cau Dit Coumes, S. Courtois, N. Malassagne, N. Benameur
| | T3-07.5 | Stabilisation of Electric Arc Furnace Dust by Cementitious Materials: Influence of pH
G. Laforest, J. Duchesne
|
T3-08 Supplementary Cementing Materials: Geopolymers
|
| T3-08.1 | Immobilization of Cesium in Geopolymeric Matrix: A Formulation Study
V. Fournel, C. Cau-Dit-Coumes, S. Berger, F. Frizon
| | T3-08.2 | Alkali Activation of 'Pozzolan-Calcium Aluminate Cement' Mixtures
L. Fernández-Carrasco, A. Palomo, A. Fernández-Jiménez
| | T3-08.4 | Characterization of Geopolymer Cements and Concretes: Structure/Property Relations and Commercial Utilization
J.S.J. Van Deventer, J.L. Provis, P. Duxson, C.A. Rees, G.C. Lukey
| | T3-08.5 | New Clinker Formulations Made of Industrial Wastes
J.A. Labrincha, F. Raupp-Pereira, A.M. Segadães
|
W3-09 Interactions with Heavy Metals: Immobilization
|
| W3-09.1 | Possibilities of Chromate Decreased Clinker
F.D. Tamás, L. Opoczky, L. Sas
| | W3-09.2 | Emission of Heavy Metals During Cement Calcinations by Utilizing Waste Materials
D. G. Su, S.M. Lin, A. H. Tong
| | W3-09.3 | A Potential of Chromium (VI) Reduction in Commercial Clinker Burning
K. Shimosaka, E. Asakura, H. Tanaka, M. Yamashita
| | W3-09.4 | Entrapment of Zinc & Lead in Clinker Produced with a Nonferrous Waste Slag
S.P. Pandey, A.K. Singh, R.K. Singh, A.K. Chatterjee
| | W3-09.5 | Impact of ZnO on Clinker Composition and Reactivity - Coupling with MgO
R. Barbarulo, F. Sorrentino, C. Sing
|
W3-10 Supplementary Cementing Materials: Clay Based
|
| W3-10.1 | Low CO2/Energy Binder for Precast Industry
G. Escadeillas, F. Cassagnabere, M. Mouret, P. Broilliard
| | W3-10.2 | Autoclaved Alumina-Silica Rich Industrial Waste Cement Systems Incorporating Magnesia
A. Ray, B. Liu, P.S. Thomas
| | W3-10.3 | The Influence of the Metakaolinite Addition on the Hydration Process of the Alkali-activated Synthetic Gehlenite Glasses
Ł. Gołek, J. Deja
| | W3-10.4 | The Effect of Activated Qatari Attapulgite Clay Admixture on the Mechanical Properties and Hydration Kinetics of Ordinary Portland Cement
Kh. Al-Naimi
|
W3-11 Calcium Sulfoaluminate Cements
|
| W3-11.1 | Hydration Analysis of Rapid-Hardening Mortars with Amorphous Calcium Aluminate Additives
R. Yoshino, T. Higuchi, H. Udagawa
| | W3-11.2 | Synthesis, Hydration Properties and Environmentally Friendly Features of Calcium Sulfoaluminate Cements
G. L. Valenti, M. Marroccoli, F. Montagnaro, M. Nobili, A. Telesca
| | W3-11.3 | New Cements for Sustainable Development
A. Alaoui, A. Feraille, A. Steckmeyer, R. Le Roy
| | W3-11.4 | Microstructural Investigations on Hydrated High-Performance Cements Based on Calcium Sulfoaluminate
F. Canonico, G. Bernardo, L. Buzzi, M. Paris, A. Telesca, G.L. Valenti
| | W3-11.5 | Thermal Behaviour of Materials Based on Calcium Sulfo-Aluminate Cement
J. Péra, J. Ambroise
| | W3-11.6 | Experimental Studies of Hydration Mechanisms of Sulfoaluminate Clinker
A. Alaoui, V. H. Nguyen, L. Divet, A. Feraille, R. Le Roy
|
W3-12 Novel Supplementary Cementing Materials
|
| W3-12.1 | Hydraulic Fluorgypsum Cements: Effect of Different Additives and Portland Cement on the Hydration, Water Resistance and Mechanical Properties
O.A. Martínez-Aguilar, J.I. Escalante-García, P. Castro-Borges, A. Gorokhovsky
| | W3-12.2 | Cement Kiln Dusts and their Hydration Products- a Characterization Study
J. Olek, S. Peethamparan
| | W3-12.3 | Pozzolans out of Wastes from the Sugar Industry
J.F. Martirena-Hernandez, B. Middendorf, R.L. Day
| | W3-12.4 | Chemical and Thermal Activation of Sodium-Rich Calcium Alumino-Silicate binder
A. Tagnit-Hamou, G. Fares
| | W3-12.5 | Evaluation of Activation and Action Mechanism of Calcined Coal Gangue
D.X. Li, C.C. Gong, X.J. Wang
|
TH3-13 Carbonation of Cement Systems
|
| TH3-13.1 | Adsorption of CO2 to the Hardened Cement Paste
Z.H. Shui, C.H. Shen
| | TH3-13.2 | CO2 Uptake of Cement Exposed to As-Captured Flue Gas
Y. Shao, S. Wang, G. Bernardin
| | TH3-13.3 | Changes in C-S-H of Alkali-Activated Slag and Cement Pastes After Accelerated Carbonation
F. Puertas, M. Palacios
| | TH3-13.4 | Interactions Between Portland Cement and Carbon Dioxide
F.P. Glasser, T. Matschei
| | TH3-13.5 | Carbon Dioxide Uptake Rate and Extent During Accelerated Curing of Concrete
S. Ghoshal, R.A. Niven
| | TH3-13.6 | Carbonation of Filler Type Self-Compacting Concrete
K. Audenaert, V. Boel, G. De Schutter
|
TH3-14 Supplementary Cementing Materials: Multi-Component Blends
|
| TH3-14.1 | Applications of Chemically Activated Blended Cements with Very High Proportions of Fly Ash
R.L. Day, L.M. Moore, M.N. Nazir
| | TH3-14.2 | The Effect of Nano-Sized CaCO3 Addition on the Hydration of Cement Paste Containing High Volumes of Fly Ash
T. Sato, J.J. Beaudoin
| | TH3-14.3 | Fly Ash Reactivity with Lime: A Method of Durability Assessment for their Mix Mortar Cubes
B. Jha
| | TH3-14.4 | Mechanochemical Technology: Synthesis of Energetically Modified Cements (EMC) with High Volume Fly Ash Content
H. Justnes, V. Ronin, J.-E. Jonassen, L. Elfgren
| | TH3-14.5 | Interaction Between the Pozzolanic Reaction of Fly Ash and the Hydration of Cement
G. Baert, I. Van Driessche, N. De Belie, S. Hoste, G. De Schutter
| | TH3-14.6 | Fly Ash Reactivity as a Glass Corrosion Topic
W. Bumrongjaroen, I.S. Muller, R.A. Livingston, J. Schweitzer
|
TH3-15 Belite Cements
|
| TH3-15.1 | Chemically-Modified Calcium Silicates from Rice Hull Ash: Synthesis and Hydration Behavior
F.A. Rodrigues, R.P. Amorim, M.A. Alves, L.R. Abreu
| | TH3-15.2 | In-Situ Clinkerization Study of Belite Portland Clinkers by Synchrotron X-Ray Powder Diffraction
A.G. de la Torre, M.A.G. Aranda, K. Morsli, M. Zahir
| | TH3-15.3 | Formation and Hydration of Low-CO2 Cements Based on Belite, Calcium Sulfoaluminate and Calcium Aluminoferrite
G.S. Li, G. Walenta, E.M. Gartner
|
TH3-16 Supplementary Cementing Materials: Fly Ash
|
| TH3-16.1 | Experimental Studies on the Development of Water Permeability of Portland Cement Paste Blended with Blast Furnace Slag
G. Ye, J. Zhou, K. van Breugel
| | TH3-16.2 | New Composites in Cementless Concrete from Secondary Mineral Resources
S.I. Pavlenko, A.V. Aksenov
| | TH3-16.3 | Cementitious Systems with a High Mineral Admixture Content: Alkaline Hydration
A. Palomo, A. Fernández-Jiménez, G. Kovalchuk, L.M. Ordoñez, M.C. Naranjo
| | TH3-16.4 | The Composite Effect of Mineral Additives to the Performances of Concrete
Y.L. Chen, W.L. You
| | TH3-16.5 | Design and Characterization of Low-Heat and Low-Alkalinity Cements
M. Codina, C. Cau-dit-Coumes, P. Le Bescop, J. Verdier, J.-P. Ollivier, X. Bourbon, L. Petit
| | TH3-16.6 | Preparing High Performance Composite Cement and Exploring the Properties
D.X. Li, Q.Q. Jiang
|
ST4 - Durability and Degradation of Cement Systems
Paper
No. | Title / Author(s) |
M4-02 Alkali Aggregate Reactivity
|
| M4-02.1 | From Alkali Aggregate Reaction to Alkali Activated Cementing Materials: the Reaction Conditions, Mechanism and Products
W. ZiYun, Y. Suhong, D. Xinxiang, Y. Qi, G. Wenying, W. Guolin, L. Zhiqiang
| | M4-02.2 | ASR in Concrete with Supplementary Cementitious Materials Effect of Pore Solution Composition on Damage
K. Schmidt, H. Hilbig, D. Heinz
| | M4-02.3 | Synthesis and Characterization of Cementitious Gels (C-S-H and N-A-S-H). Compatibility Studies
A. Fernández-Jiménez, I. García-Lodeiro, A. Palomo, M.T. Blanco-Varela
| | M4-02.4 | Effects of Surface Improvement Agent Composed of Lithium Silicate on Permeability and Durability of Hardened Concrete
T. Nawa, M. Suzuki, H. Naganuma, K. Kurumisawa
| | M4-02.5 | Use of Reactive Aggregate Powders to Mitigate ASR Expansion
M. Cyr, A. Carles-Gibergues, M. Moisson, E. Ringot
| | M4-02.6 | Chemical Changes Associated with Expansion due to Alkali Silica Reaction: Results from Room-Temperature Mortar Bar Experiments
Q. Li, R.J. Kirkpatrick, L.J. Struble
|
M4-03 Thaumasite I
|
| M4-03.1 | Thermodynamic Calculations on the Formation of Thaumasite and Validation by Experimental Investigations
F. Bellmann, J. Stark
| | M4-03.2 | Conditions for Thaumasite Formation
T. Schmidt, B. Lothenbach, K.L. Scrivener, M. Romer, D. Rentsch, R. Figi
| | M4-03.3 | Thermodynamic Stability of Thaumasite in the CaO-SiO2-CaCO3-Al2O3-CaSO4-H2O Closed System at 25 ºC
S. Martinez-Ramirez, J. Aguilera, M.T. Blanco-Varela
| | M4-03.4 | Relative Resistance of Portland and Pozzolanic Cements to the Thaumasite Form of Sulfate Attack (TSA)
Q. Zhou, J. Hill, E.W. Byars, C.J. Lynsdale, J.C. Cripps, J.H. Sharp
|
T4-04 Corrosion and Chloride Transport
|
| T4-04.1 | The Key Role of Surface Concentration in the Modelling of Chloride Penetration into Concrete
C. Andrade, M. Castellote, F. Tavares, I. Petre-Lazars, M.A. Climent
| | T4-04.2 | Practical Modeling of Uniform Steel Corrosion in Concrete
O.B. Isgor, P. Ghods, M. Pour-Ghaz
| | T4-04.3 | An Approach for the Physicochemical Modeling of Chloride Ingress into Cementitious Materials
T.Q. Nguyen, P. Dangla, V. Baroghel-Bouny, L. Petit
| | T4-04.4 | Effect of Fly Ash on Chloride Transport through Concrete: Study by Impedance Spectroscopy
I. Sánchez, M.P. López, M.A. Climent
| | T4-04.5 | Influence of Membrane Potential on the Diffusion of Chloride Ion in the Paste
Y. Elakneswaran, T. Nawa, K. Kurumisawa
| | T4-04.6 | Corrosion of Prestressing Steel in High Performance Grouts
M. Serdar, I. Stipanovic, D. Bjegovic
|
T4-06 Thaumasite II
|
| T4-06.1 | The Effect of Mineral Admixtures on Long Term Durability of Limestone Cement Mortars Exposed to Sulfate Attack
S. Tsivilis, A. Skaropoulou, G. Kakali, J.H. Sharp, R.N. Swamy
| | T4-06.2 | A Long Term Study on Thaumasite Form of Sulfate Attack (TSA) in Limestone Cement Pastes
A. Skaropoulou, K. Sotiriadis, G. Kakali, S. Tsivilis
| | T4-06.3 | Thaumasite Formation in Hydrated and Carbonated C3S Pastes
M.T. Blanco-Varela, J. Aguilera, L. Trusilewicz, S. Martinez-Ramirez
| | T4-06.4 | Influence of Cement Types and Mineral Admixtures on the Resistance of Mortar to Thaumasite Form of Sulfate Attack
X.J. Gao, B.G. Ma, H.J. Ba
| | T4-06.5 | The Sulphate Corrosion of Mortars Containing FBC Ash
R. Mroz, M. Gawlicki, J. Malolepszy
|
W4-07 Freezing and Thawing in Porous Cement Systems
|
| W4-07.1 | Kinetics of Ice Growth in Concrete
Z. Sun, D. Kumpf, G.W. Scherer
| | W4-07.2 | Durability and Micro Structure of 200N/mm2 Grade Ultra-High Strength Fiber Reinforced Concrete
M. Ashida, Y. Watanabe, R. Yoshino, K. Suhara
| | W4-07.3 | Ability of the Glue Spall Model to Account for the De-Icer Salt Scaling Deterioration of Concrete
M.-H. Tremblay, F. Lory, J. Marchand, G.W. Scherer, J.J. Valenza
| | W4-07.4 | Frost Behaviour of a Cement Structure
T. Fen-Chong, A. Fabbri, O. Coussy, A. Azouni
| | W4-07.5 |
Laboratory Testing of Frost Resistance - Do these Tests Indicate the Real Performance of Blended Cements?
P. Boos, B.E. Eriksson, Z. Giergiczny, R. Haerdtl
|
W4-08 General Durability Issues I
|
| W4-08.1 | Microstructural Characterization of Aged Mortar by Destructive and Non-Destructive Testing
I. Segura, J.J. Anaya, M.G. Hernández, D. E. Macphee, A. Moragues, T. Sánchez
| | W4-08.3 | Study of Efflorescences Forming Process on Cementitious Materials
S. Delair, R. Guyonnet, A. Govin, B. Guilhot, S. Maximilien
| | W4-08.4 | Durability of Blended Cements with Several Main Components
R. Härdtl, M. Dietermann, K. Schmidt
| | W4-08.5 | Quantitative Microstructural Study of the Effect of Temperature on the Properties of Concrete
E. Gallucci, X. Zhang, K. Scrivener
| | W4-08.6 | Low-pH Cementitious Materials Design and Characterisation
M.C. Alonso, L. Fernández Luco, J.L. García, A. Hidalgo, F. Huertas
|
W4-09 Sulphate Resistance I
|
| W4-09.1 | Ettringite Formation in Heat-Cured Mortars and its Relationship to Expansion
Y. Shimada, P. Tennis, V. C. Johansen
| | W4-09.2 | Suppression of Delayed Expansion in an Ettringite-Generating High-Strength Additive
K. Yamamoto, R. Yoshino, Y. Watanabe, E. Sakai
| | W4-09.3 | The Formation of the Ettringite from Sulfate Solution
H.Y. Ghorab, A.M. Zayed, A.S. Mohamed, M.R. Mabrouk
| | W4-09.4 | Deterioration of Portland-Metakaolin Cement Pastes and Mortars Exposed to Magnesium Sulfate Solution
S.T. Lee, R.D. Hooton, S.S. Kim, H.S. Jung, J.S. Ryou, H.Y. Moon
| | W4-09.5 | Effect of Relative Humidity on Expansion and Microstructure of Heat-Cured Mortars
L. Graf, V. Johansen
|
TH4-10 Well Cements
|
| TH4-10.1 | Incorporation of Aluminium Guest-Ions in Nominally Alumina-Free Calcium Silicate Hydrates: Effects on Crystal Structure and Thermal Stability
N. Meller, C. Hall, K. Kyritsis, G. Giriat, H.J. Jakobsen, J. Skibsted
| | TH4-10.2 | The Effect of Carbonated Brine on Well Cement used in Geologic Formations
A. Duguid, M. Radonjic, G.W. Scherer
| | TH4-10.3 | Cements for Water-, Gas Storage-, Waste Disposal- and Plug-and-Abandonment-Wells
J. Bensted, J.S. Lota, J. Munn
| | TH4-10.4 | Effect of Polymer Powder Addition on Well Cement Properties
A. Audibert, A. Chougnet, M. Moan, B. Guichard
|
TH4-12 Sulphate Resistance II
|
| TH4-12.1 | Supersulfated Cement in Optimized Restoration Mortars and their Application at the Restoration of the Holstentor in Lübeck, Germany
J. Volkmar, K.G. Böttger, R. Trettin, J. Balau
| | TH4-12.2 | Corrosion Resistance of Ordinary and Special Portland Cements in the Sulfate and Chloride Environments
J. Jasiczak, A. Lowinska-Kluge
| | TH4-12.3 | Contribution to the Study of the Corrosion of the Pouzzolana High Performance Concrete (HPC) in Sulfates
M. Ahcene, T. Aissa, K. Fettoum, C. Rabah
| | TH4-12.4 | Factors Affecting the Sulfate Expansion in Cement Systems
H.Y. Ghorab, A.M. Zayed, A.S. Mohamed, Y.A. Osman, H.E.H. Ahmed, R. Mabrouk
| | TH4-12.5 | Influence of the Sulfate Concentration on the Results of Laboratory Investigations of Sulfate Resistance
F. Bellmann, B. Möser, J. Stark
|
ST5 - Innovations in Cement and Concrete Science
Paper
No. | Title / Author(s) |
M5-01 New Technologies
|
| M5-01.1 | Current ACI Initiatives on Sustainable Development
C. Bédard
| | M5-01.2 | Clinkerization of Portland Cement Raw Meal in the Microwave Processing System
C.K. Park, J.P. Lee, D.M. Roy
| | M5-01.4 | Wet Chemical Synthesis of Hydraulic Compounds and Materials
G. Kakali, R. Chrysafi, A. Gaki, Th. Perraki, A. Tsitouras
| | M5-01.5 | High Strength Micro/Nano Fine Cement
A. Garcia-Luna, H. Minard, B.R. Diego
|
T5-02 Novel Cement Based Products
|
| T5-02.1 | Study on Properties of 0-3 Cement Based Piezoelectric Composites
C. Xin, H. Shifeng, C. Jun, W. Shoude
| | T5-02.2 | Properties of Cementitious Composites Produced Using Supercritical Carbon Dioxide
E. Farahi, P. Purnell, N.R. Short
| | T5-02.3 | Macro-Defect-Free Materials: Potential of Portland Cements
M. Drábik, S. Balkovic, P. Martauz, J. Strigáč, L. Bágel
| | T5-02.4 | Effects of Different Calcium Sulphates on the Mechanical Properties of a Rapid Setting High Flow Anchoring Grout
C. Pistolesi, C. Maltese, A. Bravo, F. Cella, T. Cerulli, D. Salvioni
| | T5-02.5 | Study on the Manufacture on Self-Leveling Material from Chemical Gypsum
D.X. Li, L.Q. Quan
|
W5-03 Cement Based Nanocomposites
|
| W5-03.1 | On the Formation of Cementitious C-S-H Nanoparticles: a Computational Bottom-Up Approach
J.S. Dolado, H. Manzano, A. Porro, A. Ayuela, J. Hamaekers, M. Griebel
| | W5-03.2 | Spectral and Microscopic Properties of Calcium Silicate Hydrate Polymer Nanocomposites
L. Raki, S.C. Mojumdar, S. Lang, D. Wang
| | W5-03.3 | Carbon Nanostructures Incorporated to C3S- and Cement-Based Binders
T. Kowald, S. Eser, R. Trettin
| | W5-03.5 | Cement-Silylated Polymers Nanocomposites
A. Franceschini, S. Abramson, B. Bresson, H. Van Damme, N. Lequeux
|
TH5-04 Innovative Cements
|
| TH5-04.1 | The Effect of Limestone Powder Addition on the Optimum Sulfate Levels of Cements Having Various Al2O3 Contents
H. Hirao, K. Yamada, S. Hoshino, H. Yamashita
| | TH5-04.2 | Reaction Between Carbonaceous Rocks and Water Glass
Q. Yin, Z.Y. Wen
| | TH5-04.3 | Acceleration of Slag Cement Hydration by Calcium Sulfoaluminate Cement
J. Pera, J. Ambroise, A. Bouamrane, M. Boulet
| | TH5-04.4 | The Synthesis and Mechanical Performances of Barium-Calcium Sulfoaluminate Mineral
L. Lu, Z. Ye, L. Yu, J. Chang, X. Cheng
| | TH5-04.5 | The Relationship Between the Microstructure and Engineering Properties of Hydroceramic Sealants for Geothermal Wells
K. Kyritsis, C. Hall, N. Meller, M.A. Wilson
| | TH5-04.6 | New Polymer-Modified Cement Using Belite-Rich Cement and the Carbonation Reaction
E. Sakai, K. Nakajima, T. Kubokawa, S. Sotokawa, M. Daimon
|
ST6 - Rheology and Early-Age Properties of Cement Systems
Paper
No. | Title / Author(s) |
M6-02 Early Age Properties of Cement Systems
|
| M6-02.1 | Volume Changes in Pastes Containing Shrinkage Reducing Admixtures under Autogenous and Drying Conditions
G. Sant, P. Lura, F. Rajabipour, A. Radlinska, W.J. Weiss
| | M6-02.2 | The Effect of Natural Zeolites on the Composition of Cement Pore Fluids at Early Ages
K. Luke
| | M6-02.3 | Correlation Between Hydration Characteristics and Initial Cracking Time of Cement-Based Materials at Early Ages
M.Z. Chen, S.P. Wu, M.K. Zhou, Z. He
| | M6-02.4 | Comparison of Early Age Resistivity Development Between Ordinary Portland Cement and Calcium Sulfoaluminate Cement
J. Zhang, Z. Li
| | M6-02.5 | Autogenous Shrinkage of Concrete Prepared with the Binders Containing Different Kinds of Mineral Admixture
P.Y. Yan, J.C. Wang, F. Zheng, Z.C. Chen
|
M6-03 Polycarboxalytes and Lignosulphonates
|
| M6-03.1 | Interaction Between Cements and Superplasticizers
C. Haehnel, H. Lombois-Burger, L. Guillot, E. Borgarello
| | M6-03.2 | Interaction of Polycarboxylate-Based Superplasticizers and Cements: Influence of Polymer Structure and C3A-Content of Cement
F. Winnefeld, L. Holzer, A. Zingg, R. Figi, J. Pakusch, S. Becker
| | M6-03.3 | Influence of Superplasticizers on C3A Hydration and Ettringite Growth in Cement Paste
C. Rößler, B. Möser, J. Stark
| | M6-03.4 | Influence of PC Superplasticizers on Tricalcium Silicate Hydration
S. Pourchet, C. Comparet, L. Nicoleau, A. Nonat
| | M6-03.5 | Interactions Between Lignosulphonates and Clinker Minerals and the Hydration Products of Clinker Minerals
B.O. Myrvold
| | M6-03.6 | What Makes More Effective Polycarboxylates Comparing to Lignosulphonates? Differences on Adsorption Mechanisms
J. Roncero, V. Gimenez, M. Corradi
|
T6-04 Superlasticizer Issues and Techniques
|
| T6-04.1 | Influence of Chemical Admixtures on Workability of Lightweight Aggregate Concrete
M.H. Zhang, K.S. Chia
| | T6-04.2 | Incompatibility Problem of Hardening Using Specific Combinations of Chemical Admixtures, Cement and Fly Ash
K. Yamada, K. Wolf, H. Hira
| | T6-04.3 | Strength and Shrinkage Cracking of Portland Cement Mortar Containing Different Superplasticizers
X.G. Wang, B.G. Ma, K. Wang, X.G. Li
| | T6-04.4 | Poly (methacrylic acid) Sodium Salt Interaction with Hydrating Portland Cement
B. Middendorf, N.B. Singh
| | T6-04.5 | Relationship Between Composition of Cement Increased Interstitial Phase Content and the Fluidity of Fresh Cement Paste
E. Maruya, M. Osaki, H. Igarashi
| | T6-04.6 | Determination of the Zeta Potential in Hardened Cementitious Materials by Electro-Osmotic Experiments
M. Castellote, I. Llorente, C. Andrade
|
T6-05 Comparative Studies Between Superplasticizers I
|
| T6-05.1 | Organo-Mineral Phases Formed During Cement Hydration
J. Plank, Z. Dai, H. Keller
| | T6-05.2 | Effectiveness of a New Type Superplasticizer for Ultra Rapid Hardening Cement
A. Ohno, H. Inokawa, H. Kawakami, T. Hirata
| | T6-05.3 | The Influence of Added Sulfates on the Properties of Cement Paste, Mortar and Concrete
N. Zeminian, R. Magarotto, F. Moratti
| | T6-05.4 | Adsorption of Superplasticizers on a Model Powder
Y.F. Houst, P. Bowen, F. Perche
| | T6-05.5 | On Understanding the Dispersion Behaviors of Cement Treated with Dispersants
J.H. Cheung, B.-W. Chun, A. Miller
| | T6-05.6 | Diffusion Behavior of Aluminate and Silicate on the Metakaolin Concrete Adding Various Superplasticizers
T.H. Ahn
|
W6-06 Rheological Behaviour of Cement Systems I
|
| W6-06.1 | Rheological Characterization of Cement-Based Materials Pastes Containing Diutan Gum and Limestone Powder
M. Sonebi
| | W6-06.2 | The Effect of Free Lime on the Hydration Kinetics and Rheology of Cement Mortar
O. Wallevik, P. Sandberg, K. Kjellsen, H. Svavarsson, S. Kubens
| | W6-06.3 | Computational Model Predictions of Suspension Rheology: Comparison to Experiment
N.S. Martys, C.F. Ferraris, V. Gupta, J.H. Cheung, J.G. Hagedorn, A.P. Peskin, E.J. Garboczi
| | W6-06.4 | Effect of Particle Size Distribution of Binder on the Rheological Properties of Slag Cement
H.J. Hwang, S.H. Lee, W.J. Lee, W.K. Kim, E. Sakai, M. Daimon
| | W6-06.5 | Polyol-Type Compounds as Clinker Grinding Aids: Influence on Powder Fluidity and on Cement Hydration
C. Jolicoeur, S. Morasse, J. Sharman, A. Tagnit-Hamou, F. Slim, M. Pagé
| | W6-06.6 | The Influence of Limestone Microfillers on the Rheology of Cement Pastes
S. Grzeszczyk, E. Janowska-Renkas
|
W6-07 Comparative Studies Between Superplasticizers II
|
| W6-07.1 | Influence of Cement and Plasticizer Type on the Heat of Hydration
H. Vikan, H. Justnes
|
| W6-07.2 | Optimum Combinations of Calcium Sulfate Setting Regulator and Various Superplasticizers for Concrete Production
G.N. Tzouvalas, G. Bartzis, K. Pavlou, S.K. Antiohos, S. Tsimas
|
| W6-07.3 | Effects of Chemical Admixtures on the Silicate Structure of Hydrated Portland Cement
K. Koizumi, Y. Umemura, N. Tsuyuki
| | W6-07.4 | Evaluating the Effect of Mixing Method on Cement Hydration in the Presence of a Polycarboxylate High-Range Water Reducing Admixture by Isothermal Conduction Calorimetry
S.A. Farrington
| | W6-07.5 | Reducing Cement-Superplasticizer Incompatibilities by Adding Alkalis
C.-T. Chen, L.J. Struble
| | W6-07.6 | Improved Superplasticisers for High Performance Concrete: the SUPERPLAST Project
P.F.G. Banfill, P. Bowen, R.J. Flatt, L. Galmiche, Y.F. Houst, A. Kauppi, F. Lafuma, U. Mäder, B.O. Myrvold, P. Livesey, F. Perche, B.G. Petersen, K. Reknes, I. Schober, D.S. Swift
|
TH6-08 Rheological Behaviour of Cement Systems II
|
| TH6-08.1 | Hydration of Silicate Phase and Mechanical Evolution in 'alite-tricalcium aluminate-gypsum' Complex System
S. Garrault, H. Minard, A. Nonat
| | TH6-08.2 | Practical Test Methods for Concrete Rheology Evaluation
F. Moratti, R. Magarotto, S. Moro, M. Vierle, N. Zeminian
| | TH6-08.3 | Influence of Hydration on the Fluidity of Normal Portland Cement Pastes
C. Rößler, A. Eberhardt, H. Kučerová, B. Möser
| | TH6-08.4 | Extended Rheological Characterization of Cement Pastes: Squeeze Flow Plus Rotational Rheometry
R.G. Pileggi, A.M. Betioli, F.A. Cardoso, V.M. John
| | TH6-08.5 | Effects of Hydroxyethyl Methylcellulose on the Shrinkage Cracking of Cement Mortars
L.F. Liu, P.M. Wang, X.J. Yang
|
TH6-09 Other Admixtures
|
| TH6-09.1 | Advances in Self-Compacting Repair Mortars with Powder Polycarboxilate Superplasticizes Expansive Agents and Shrinkage Reducing Admixtures
S. Beraldo, V. Alunno Rossetti, P. Corrado, A. Dal Bò, R. Gottardo
| | TH6-09.2 | Impact of Cellulose Ethers on the C3S Hydration
P. Grosseau, J. Pourchez, B. Guilhot, R. Guyonnet, B. Ruot
| | TH6-09.3 | The Mechanism of Action of Sodium Gluconate on the Fluidity and Set of Portland Cement
J.-Ph. Perez
| | TH6-09.4 | Acrylonitrile Monomer Modified Cement Products
V.K. Singh, S.D. Khatri, R.K. Singh
| | TH6-09.5 | Early Age Properties of Modern Rendering Systems Based on Mineral Binders Modified by Admixtures
J.C.-M. Capener, L. Tang
|
ST7 - Bridging the Gap Between Research and Standards
ST8 - Materials Performance Lessons
Paper
No. | Title / Author(s) |
TH8-01 Materials Performance Lessons
|
| TH8-01.1 | Concrete Pavement a Truly Sustainable Choice
T.J. Smith
| | TH8-01.2 | Development and Underground Placing of Self Compacting Concrete
K. Dombrowski, Ch. Nicolai, S.A. Rizwan, F. Dahlhaus, Th. Bier
| | TH8-01.3 | Performance of High Volume Supplementary Cementing Materials for High Density Concrete at Elevated Temperature
C.-M. Aldea, B.J. Cornelius, J. Balinski, B. Shenton
| | TH8-01.4 | Field Performance of Structural Concrete Slabs Containing an Hydrophobic Admixture
D. Cusson, T. Hoogeveen, R. Glazer, A. Wiseman
| | TH8-01.5 | Effect of Cement Type and Curing Conditions on Flexural Strength of Concrete of Pavement Slabs
J. Zhang, J. Harvey, P. Monteiro, A. Ali
| | TH8-01.6 | Long Term Durability of Pozzolanic Cement Concretes in Severe Environments
A. A. Ramezanianpour, A.R. Pourkhorshidi, A.M. Ramezanianpour
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