Architectural and Precast Concrete
European Experiences with Self-Compacting Concrete in Precast Concrete Industry
K. Juvas, Consolis Technology Oy Ab
Self-Compacting Architectural Concrete: Practical Remarks
K. Kuniczuk, Cemex Polska Sp. Z O.O.
Long Term Behaviour of SCC Precast Members
F. Di Fabio, D. Galeota, M.M. Giammatteo, A. Gregori, University of L'Aquila
Applications of High Strength SCC in Building Construction
A. Gregoriand, R. Marino, University of L'Aquila; A. Zagaglia and M. Drago, Calcestruzzi SpA; and G. Bason, IMAR, Construction Building Company
SCC Compressive Strength Variation in Precast Beams and Columns
D. Hastenpflug and W.L. Repette, Federal University of Santa Catarina
Relationship Between SCC Specification and Casting Conditions for Architectural SCC and the Effect on Superficial Defects
A. Pacios, Universidad Politécnica de Madrid; D. González, IMASATEC; and J.M. Escrivá and V. Climent, Mixbeton, Grupo GLA
Self-Consolidating Concrete for R/C
Precast Elements in Romania
A. Ioani, Technical University of
Cluj-Napoca (Romania);
P. Bratu, ICECON SA Bucharest; and
H. Szilagyi, INCERC-Cluj
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Case Studies/Field Experiences/Quality Control
Experiences with SCC Mixes Used for Precast Elements and Field Applications in Slovenia
Z. Cotic and K. Koglot, Primorj Inc.; and R. Zarnic, V.B. Bosiljkov, University of Ljubljana
SCC as Mass Concrete with Blast Furnace Slag Cement
A. Goldman, Ariel University Center; and J. Sokal, Technion IIT
SCC Technology and Concrete Manufacturers' Role
M. Khrapko, CBE Consultancy Ltd
The Application of SCC in Taiwan
C.L. Hwang and C.H. Chang, National Taiwan University of Science and Technology; and T.J. Chen, China Engineering Consultants Inc.
Behavior of Self-Consolidating Concrete at Cryogenic Temperatures
C. Talbot, The Euclid Chemical Company
Testing the Theory
C. Robertson, Holcim Concrete and Aggregates
Online Measurement of Air Content in Fresh SCC
A. Kappi, Consolis Technology Oy, and E. Nordenswan, Rusko, Finland
Specification and Compliance Criteria for SCC: The Norwegian Procedure
T.A. Hammer, SINTEF Building and Infrastructure
In Situ Quality Control of Self-Compacting Concrete
S. Cattaneo, F. Giussani, F. Mola, Politecnico di Milano
Succesful In-Situ Casting with SCC: From an Economical and Rheological Point of View!
L. N. Thrane, C. V. Nielsen, C. Pade, and M. Glavind, Danish Technological Institute; and J. Schou, Unicon A/S
Frost Resistant Under-Water Concrete
K. Wallin and C. Vogt, Swedish Cement and Concrete Research Institute; Hans Hedlund, Skanska BTC
Measurements During Concrete Processing in Central Mixed Concrete Plants
B. Cazacliu and N. Roquet, Laboratoire Central des Ponts et Chaussées; and E. Brunquet, Couvrot Group Skako
Evaluations of Self-Consolidating Concrete Using West Virginia Aggregates
A. Bhattacharya, I. Ray, and J.F. Davalos, West Virginia University
Industrialized Construction with SCC Obtaining Many Important Benefits
P. Simosso and M. Emborg, Lulea Technical University
Use of Self-Consolidating Concrete for Bridge Repairs
M. Titherington and H. Schell, Ontario Ministry of Transportation
Pump Application for Self-Compacting Concrete Under Extreme Conditions
H. Beitzel, Institute for Building Processes
and Environmental Technology, Trier; M. Beitzel and H.S.
Mueller, University of Karlsruhe
^ Top
Chemical Admixtures
The Next Generation of High-Range Water-Reducers for Self-Consolidating Concrete Applications
J.A. Daczko, BASF Construction Chemicals
Develoment of New Superplasticizer and Its Application in Self-Consolidating Concrete
D. Hamada, T. Hamai, M. Shimoda, and H. Takahashi, Kao Corporation
Polycarboxylate Admixture Technology for Precast Self-Consolidating Concrete
V.Mahadevan, BASF Construction Chemicals
A New Slump-Loss-Controlling Agent without Affecting Early Strength Properties
F. Göller, S. Dikty, and T. Izumi, Kao Chemicals Europe
Concrete Rheology with High-Range Water Reducers with Extended Slump Flow Retention
A. Jeknavorian, E. Koehler, D. Geary, R. Cook, W.R. Grace & Co.
Development of Advanced Superplasticizer for Self-Consolidating Super High Strength Concrete and Application to High Rise Buildings
K. Mitsu, Takenaka Corporation; and M. Kinoshita, Takemoto Oil & Fat Co.Ltd.
Effect of Comb-Like Copolymer with Different Side Chain Lengths on the Rheological Performance of Cement-Active Mineral Admixture
D. Wang,W. Xiong,Y. Zuo, Z.Wu, and Z. Wang, China University of Mining and Technology
Study of Fresh Properties of High Strength Self Consolidating Concrete Using Some Chemical Admixtures with Different Molecule Structures
K. Saitoh, Sika Ltd.; and H. Fujiwara, M. Maruoka, and Y. Yamanashi, Utsunomiya University
Re-Use of GRP Industrial By-product as Filler for SCC
F. Tittarelli and G. Moriconi, Universita Politecnica delle Marche
Effect of the Cement Admixture Interaction on the Workability Retention from the Aqueous and Solid Phase Study
M. Sánchez and M.C. Alonso, "Eduardo Torroja" Institute of Construction Sciences; B. Manzanedo, Sika S.A., Spain; and A. Pacios, Universidad Politécnica de Madrid
^ Top
Durability
Influence of Wet Curing Period on Salt Frost Scaling Resistance of SCC with Limestone Filler
V.B. Bosiljkov, D. Duh, and R. Zarnic, University of Ljubljana
Applicability of Durability Requirements of the European Standard EN 206-1 to Self-Compacting Concrete
K. Audenaert and G. De Schutter, Ghent University
Durability of Self-Consolidating Concrete Exposed to Aggressive Natural Atmospheres
M. Sánchez and M.C. Alonso, Eduardo Torroja Institute of Construction Sciences; and B. Barragán, Universitat Politécnica Catalunya
Influence of Alkali Sulfate on Superplasticizer Performance in Cement Paste
S. Plang-ngern and W. Wannaphahoun, SCI Research and Innovation Co., Ltd.
A Rapid Method For Determination of Chloride Migration Coefficient in Concrete Using Electrical Field
C.-C. Yang and S.C. Chiang, National Taiwan Ocean University
^ Top
Emerging Technologies
SCC for Concrete Pavement Repair
S.Yehia, O. Abudayyeh, A. Zalt, and J. Barbera, Western Michigan University
Curling of Self-Leveling Screeds
J. Ambroise, T. Le Bihan, J.F. Georgin, and J. Pèra, Laboratoire de Genie Civil et Ingenierie Environnementale
Self-Consolidating Pervious Concrete
J.T. Kevern, K. Wang, and V.R. Schaefer, Iowa State University
Damming the Dam
C. Robertson, Holcim
High Performance Low-pH SCC for Sealing of Deposition Tunnels in a Repository for Spent Nuclear Fuel
C.Vogt and Kjell Wallin, Swedish Cement and Concrete Research Institute; and J.-E. Jonasson, Lulea Technical University
FHWA's Perspective on the Progress of SCC
M.M. Lwin, Federal Highway Administration (USA)
Superlight Self Compacting Concrete
R. Hela, Brno University of Technology; and M. Hubertova, Lias Vintirov, Lightweight Building Materials, Ltd.
Influence of Cement Composition and Admixture Dosage on Properties of Rapid-Setting SCC for Repair Applications: Lessons Learned
P.V. Ram and J. Olek, Purdue University
Comparison of Workability and Mechanical Properties of Normal and Lightweight SCCs with and without Steel Fibers
M.A. Tasdemir and H.N. Atahan, Istanbul Technical University; I. Gokalp, Akcansa Cement Industry and Trading Co.; and M. Yerlikaya, Beksa Steel Cord Industry and Trading Co.
Aggregate Collision and Particle-Fluid Model for Highly Flowable Mortar
G. Lu and K. Wang, Iowa State University
^ Top
Fiber Reinforced SCC
Fiber Reinforced Self-Compacting Concrete with High Wear Resistance
G. Krage and O.H. Wallevik, Innovation Center Iceland
Shrinkage Cracking of Steel Fibre Reinforced SCC Overlays
J. Carlswärd and M. Emborg, Betongindustri AB and Lulea University of Technology
Fiber Reinforced Self-Compacting Concrete for Structural Applications
A. Gregori and R. Marino, University of L'Aquila; C. Pistolesi, M. Bovassi and A. Lolli, Mapei Group
Effect of Fiber Type on Workability and Mechanical Properties of SCC
K.H. Khayat and F. Kassimi, University of Sherbrooke; and P. Ghoddousi, Iran University of Science and Technology Narmak
Effect of Fine to Coarse Aggregate Ratio on Workability and Fracture Properties of Steel Fiber Reinforced Self Consolidating Concrete
M.Y Yardimci and B. Baradan, Dokuz Eylul University; and M.A. Tasdemir, Istanbul Technical University
Effect of Polypropylene and Steel Fibers on Properties of Self-Compacting Concrete
H. Yildirim and V. Berbergil, Istanbul Technical University; B. Sertbas, Yuksel Constructing Elements; and A. Naaman, University of Michigan
^ Top
Formwork Pressure
Residential Construction Based on Integral Formworks
P.B. MAS, BASF Construction Chemicals Iberia
The Use of Methylcellulose-Based Viscosity Modifying Agents for Self-Compacting Concrete
A. Leemann, C. Hoffmann, and F. Winnefeld, Empa; M. Schmitz and R. Beyer, Wolff Cellulosics GmbH
Test Methods to Evaluate Form Pressure of SCC
K.H. Khayat, A. Omran, S. Neji, P. Billberg, and A.Yahia, University of Sherbrooke
Modeling Formwork Pressure of SCC
B. Birch, CH2M Hill; F. Tejeda-Dominguez, Holcim Apasco; and D.A. Lange, Jacob Henschen, Y.-S. Liu, and L.J. Struble, University of Illinois
Prediction Model for SCC Formwork Pressure
S.H. Kwon, Myongji University; and S.P. Shah, Northwestern University
The Influence of Workability Loss and Thixotropy on Formwork Pressure in Self-Compacting Concrete Containing Stabilizers
S. Oesterheld, F.V. Mueller, O.H. Wallevik, IBRI Rheocenter – Innovation Center Iceland
Fresh Concrete Pressure of Self-Compacting Concrete on Vertical Formwork
H. Beitzel, Institute for Building Processes
and Environmental Technology, Trier; M. Beitzel and H.S.
Mueller, University of Karlsruhe
^ Top
Hydration, Microstructure, Nanostructure
Impact of Aluminate Ions on the Properties of Saltstone Grout Mixes
J.R. Harbour, T. B. Edwards, E. K. Hansen and V. J. Williams, Savannah River National Laboratory
Nano Scale Characterization of Self-Consolidating Concrete
A. K. Reinhardt, M. Tehrani, M. Al-Haik, M. M. Reda Taha, University of New Mexico
Effect of Nanoparticles in New Generation of Concretes, SCC
A. A. Maghsoudi and M. J. Soheil, Kerman University; A. Darbhenzi, Vali-e-Asr University
Hydration, Microstructure, Transport Properties and Durability of Self-Compacting Concrete
G. De Schutter, Ghent University
DR-FTIR Method for the Study of Early Hydration of Portland Cement
R. Ylmén, K. Larsson, U. Jäglid, I. Panas, and B.-M. Steenari, Chalmers University of Technology
^ Top
Mechanical Properties and Performance
Comparison Between Long Term Properties of Self Compacting Concretes with Different Strength
C. Mazzotti and C. Ceccoli, University of Bologna
Mechanical Properties-Modelling
Bond Strength of Self Consolidating Concrete
S. Yehia and O. Abudayyeh, Western Michigan University; M. Maurovich, American Consulting, Inc.; and A. Zalt, Parsons
Use of Different Prediction Models to Compare the Mechanical Properties of Self Compacting Concrete and Conventional Concrete
A.C. Marques, L.T. Kataoka, M.A. da Silva Machado, and T.N. Bittencourt, Universidade de Sao Paulo; A.L.N. Ferraz, Maton Grosso State University; and M.P. Barbosa, Universidade Estadual Paulista
Post-Peak Response of Confined SCC
B. Chiaia, A.P. Fantilli, and P. Vallini, Politecnico di Torino
Bond Strength of Reinforcing Bars in Self-Compacting Concrete: Experimental Determination
P. Desnerck, G. De Schutter and L. Taerwe, Ghent University
Aligning Fibers Along the Flow Direction for High Mechanical Performance of Self Consolidating SFrc
L. Ferrara and M. di Prisco, Politecnico di Milano; and R.S. Khurana, BASF Construction Chemicals
Influence of Elevated Temperatures on Mechanical Properties of SCC Containing Pozzolanic Materials
A.A. Ramezanianpour and R. Esmaili, Amirkabir University of Technology
Mechanical Properties of Self-Compacting Concrete at High Temperatures and After Cooling
P. Bamonte, R. Felicetti, and P.G. Gambarova, Politecnico di Milano
^ Top
Mix Design
Robustness by Mix Design: A New Approach for Mixture Proportioning of SCC
P. Ramge, Federal Institute for Materials Research and Testing (BAM); and L. Lohaus, Leibniz Universität Hannover
Influence of Silt Content of Fine Aggregate on the Properties of Concrete
S.W. Cho, China Institute of Technology; and W.C. Liu, Architecture and Building Research Institute
Mix Design of Self-Compacting Concrete: From the Laboratory to the Concrete Plant
A. Leemann, Swiss Federal Laboratories of Materials Testing and Research
Rheology of Fiber Reinforced Cementitious Materials: Classification and Prediction
L. Martinie, P. Rossi, and N. Roussel, Laboratoire Central des Ponts et Chaussées
Mix-Design Optimization of Steel Fiber Reinforced SCC
L. Ferrara, Politecnico di Milano; and N. Ozyurt, Bogazici University (Turkey)
Predictive Analysis of Components to Obtain an Oriented Robustness
M. Francini, Unical S.p.A., Buzzi Unicem Group
SCC with Secondary Raw Materials
R. Hela and L. Bodnarova, Brno University of Technology
Evaluation of SCC Mix Designs for Moderately- and Heavily-Reinforced Members Using West Virginia Aggregates
J.G. Sweet and R.H.L. Chen, West Virginia University
Effect of Aggregate Type on Modulus of Elasticity of High Strength Self-Consolidating Concretes
H. Yildirim, A. Karadag, and H.N. Atahan, Istanbul Technical University
^ Top
Rheology Fine Slag-Ash Concrete: Consistency
S.I. Pavlenko and M.V. Lukhanin, The Siberian State University of Industry
Self-Compactability of Fresh Concrete in Terms of Dispersion and Coagulation of Particles of Cement Subject to Pumping
M. Ouchi and J. Sakue, Kochi University of Technology
Production Related Aspects of Self-Compacting Concrete
B. Barragan, T. Garcia, and L. Agullo, Universitat Politecnica Catalunya; R. Zerbino, CONICET-LEMIT, UNLP; and R. Gettu, Indian Institute of Technology Madras
Effect of the Temperature and Waiting Conditions on the Rheological Parameters of Self-Compacting Concrete
J. Roncero, BASF Construction Chemicals Espana S.L.; B. Barragán, Technical University of Catalunya; and R. Zerbino, CONICET-LEMIT, UNLP
Influence of Hauling Time on Fresh Performance of Self Consolidating Concretes
N. Ghafoori and H. Diawara, University of Nevada
^ Top
Rheology and Workability Effects of Coarse Aggregate Grading on Performance of Self-Consolidating Concrete
I.Y.T. Ng, W.W.S. Fung, and A.K.H. Kwan, The University of Hong Kong
Effects of Solids Packing Density on Rheology of SCC-Equivalent Mortar
W.W.S. Fung, I.Y.T. Ng, H.H.C. Wong, A.K.H. Kwan, The University of Hong Kong
Particulate Reference Materials for Rheometers
C.F. Ferraris, M.-H. Zhang, H. Zhu, and N. Martys, National Institute of Standard and Technology
Wet Particle Packing Analysed with the Krieger-Dougherty Equation
K. De Weerdt, SINTEF Concrete Technology
Performance of SCC Obtained with Different Mortar Contents
P.J.M. Manuel, A. Masuero, and D.D. Molin, Federal University of Rio Grande do Sul
Effect of Coarse Particle Volume Fraction on the Yield Stress and Thixotropy of SCC
F. Mahaut, S. Mokéddem, X. Chateau, N. R, and G. Ovarlez, Université Paris Est
Rheological Description of Optimized Paste for SCC
S. Grünewald, and J.W. Walraven, Delft University of Technology
Influence of Cement Composition on Concrete Rheology
H. Vikan, SINTEF Building and Infrastructure; and K.O. Kjellsen, Norcem AS
Dependency of Self-Compacting Concrete Rheological Properties on the Aggregate Volume Fraction: A Change of Scale Approach
X. Chateau and K.L. Trung, Université Paris Est
Determination of Rheological Parameters of Self-Consolidating Concrete Using Computational Fluid Dynamics
S. Uebachs and W. Brameshuber, RWTH Aachen University
Self-Consolidating Concrete for Floor Slab and Screed Applications
S. Uebachs and W. Brameshuber, RWTH Aachen University
The Thixometer: A Simple Test Allowing for the Measurement of the Thixotropic Behavior of SCC
J. Lett, G. Ovarlez, and N. Roussel, Laboratoire Central des Ponts et Chaussées
How to Obtain a Self Compacting Concrete with No Filler Addition by Studying Paste Rheology
F. Fabbris, CTG-Italcementi Group
The Slump Flow Test as a Means to Determine Segregation Resistance
N. Tregger and S.P. Shah, Northwestern University; and L. Ferrara, Politecnico di Milano
Influence of Demoulding Oil on the Rheological Properties of Fresh SCC
D.Feys, R. Verhoeven, and G. De Schutter, Ghent University
Full Scale Pumping Tests on SCC: Test Description and Results
D. Feys, R. Verhoeven, and G. De Schutter, Ghent University
Full Scale Pumping Tests on SCC: Application of the Modified Hattori-Izumi Theory
D. Feys, R. Verhoeven, and G. De Schutter, Ghent University
Evaluation of the Pressure-Loss-Causing Mechanism of the Self-Compacting Concrete
M. Maruoka, H. Fujiwara, E. Ogura, and Y. Yamanashi, Utsunomiya University
Use of Viscosity-Modifying Admixtures to Enhance Robustness of SCC
P. Billberg and K.H. Khayat, University of Sherbrooke
Cement-Admixture Interaction: The Effect of Different Cement Deliveries on Rheology, Workability and Hydration of Mortar and SCC
S. Kubens and O.H. Wallevik, Innovation Center Iceland
Method of Retrieving the Herschel-Bulkley Parameters When Using the (Wide-Gap) Coaxial Cylinders Viscometer
J.E. Wallevik, Innovation Center Iceland
A Novel Field Instrument to Measure Rheological Properties of Self-Compacting Concrete
B. Hjartarson, O.H. Wallevik, Innovation Center Iceland
Rheological Evaluation of Soy Methyl-Ester Polystyrene (Sme-Ps) Blends in Cement Pastes
K.C. Coates, M.C. Santagata, S. Mohtar, B.Y. Tao and J.W. Weiss, Purdue University
Research on Flocculation of Cement Particles in Water
Y. Zuo and D. Wang, China University of Mining Technology
Tuning Properties of Paste Layers
M.R. de Rooij and A.L.A. Fraaij, Delft University of Technology
Impact of Calcium Carbonate Morphology on Self-Compacting Concrete Performance
A.H. Asbridge and C. Paynter, IMERYS Minerals
^ Top
Segregation Sensitivity of SCC Mortar Mixtures to Cement Variations
S. Nunes, P.M. Oliveira, J.S. Coutinho, and Joaquim Figueiras, Porto University
Static and Dynamic Yield Stress Measurements of SCC
E.P. Koehler, W.R. Grace & Co. and D.W. Fowler, University of Texas at Austin
Development of Test Method to Evaluate Dynamic Segregation Resistance of Self-Compacting Concrete
Z. Li, Yamaguchi University, and M. Iidaka, University of Tsukuba
Measuring Dynamic Segregation of SCC
L. Shen, Kal Krishnan Consulting Services, Inc.; L. Struble and D. Lange, University of Illinois
Modeling Segregation of SCC
L. Shen, Kal Krishnan Consulting Services, Inc.; L. Struble and D. Lange, University of Illinois
A Rapid Evaluation of Stability of Self-Consolidating Concrete
V. Bui and E. Attiogbe, BASF Construction Chemicals
^ Top
Structural Behavior The Transfer of Shear Forces on the Surface of Self-Compacting Concrete
S. Grünewald, Delft University of Technology, and W. Bennenk, Eindhoven University of Technology
Bond Strength in Limestone Self-Compacting Concrete
S. Cattaneo, G. Muciaccia, and G. Rosati, Politecnico di Milano
Time-Dependent and Structural Behavior of SCC Prestressed Girders
Y.H. Kim, M.D. Hueste, and D. Trejo, Texas A&M University
Experimental and F.E. Modelling of Prestressed SCC-T-Beams
*A. A. Maghsoudi and M. Farahbakhsh, Kerman University
Behavior of Self-Compacting Reinforced Concrete Beams
L. Biolzi, S. Cattaneo, and F. Mola, Politecnico di Milano
Research into Properties of Self-Compacting Concrete Beams Under Combined Actions
Z. Yu, X. Liu, and X. Chen, Central South University
^ Top
Sustainability and Green SCC Development of Sustainable Fiber Reinforced Self-Compacting Concrete Using Recycled Aggregate
M.L.V. Prasad and P.R. Kumar, National Institute of Technology, India
Taiwan Experience of Green Design and Performance of SCC
C.L. Hwang and C.T. Chen, National Taiwan University of Science and Technology; S.L. Hsieh, Nanya Institute of Technology; and Y.Y. Chen, Hwa-Sha Institute of Technology
Effect of the Cement Electrofilter Powder as Filler in SCC
G.R. de Sensale, S. Sabalsagaray, and C. Romay, Universidad de la Republica, Montevideo; A. Gonzalez, and D. Miguez, Compania Urguaya de Cemento Portland
Eco-Efficiency Analysis of Self-Consolidating Concrete (SCC): How to Make SCC Greener
A. Tselebidis and M. Bury, BASF Construction Chemicals
Benefits of Filler Material on Rheology in Eco-SCC
F.V. Mueller, O.H. Wallevik, IBRI Rheocenter – Innovation Center Iceland
^ Top
Time Dependent Properties Evaluation of Time Dependent Properties of an SCC Mix
S.Yehia, O. Abudayyeh, and J. Barbera, Western Michigan University; and Ammar Zalt, Parsons Corporation
Evaluation of the Eurocode EC-2 and ACI 209-92 Shrinkage Estimating Model Applied to Self Consolidating Concrete
G.A. Landsberger and J. Fernandez-Gomez, Polytechnic University of Madrid
Total and Basic Creep and Shrinkage of Self-Consolidating Concrete
A. K. Reinhardt and M.M.R. Taha, University of New Mexico; and I. Adam, National Water Research Center (Egypt)
Shrinkage of Medium Strength Self-Consolidating Concrete
Y.-J. Xie, Y. Luo, and G.-C. Long, Central South University (China)
Influence of Aggregate Grading and Cement Paste Volume on Drying Shrinkage of Self Consolidating Concrete
P. Ghoddousi and A.M. Abbasi, Iran University of Science & Technology
Creep Behavior of Self-Consolidating Concrete
B.P. Kavanaugh, A.K. Schindler, and R.W. Barnes, Auburn University |
