Properties of hardened self compacting concrete
Test results on SCC compared to normal concrete (specimens according to BS 1881 and on structural elements): Strength, modulus of elasticity, shrinkage, creep, water absorption, carbonation, freeze-thaw resistance. [73 pages, 821 kB, PDF]
Hrsg.: M. Sonebi et al, University of Paisley, UK, 2000

Controlling the workability properties of self compacting concrete used as ready-mixed concrete
[10 pages, 953 kB, PDF]
Hrsg.: Stefan Kordts, Horst Grube

Self-Compacting Concrete (SCC) – Time Development of the Material Properties and the Bond Behaviour
Report on a research project on the time development of the material properties and the bond behaviour between the reinforcing bars and the self-compacting concrete. [10 pages, 194 kB, PDF]
Hrsg.: Leipzig Annual Civil Engineering Report No. 5, 2000

Ultra High Performance Self-compacting Concrete
An ultra high performance SCC with a compressive strength of 150 N/mm² is presented with its fresh and hardened concrete properties, especially its autogenous shrinkage. [10 pages, 21 kB, PDF]
Hrsg.: Jianxin Ma, Jörg Dietz; Institut für Massivbau und Baustofftechnologie, Universität Leipzig, 2002

SCC Rheology
Rheology of self-compacting concrete. (Some tests have been made on paste or fine mortar.) Includes details on the rheometers used (BML; BTRheom). [20 pages, 196 kB, PDF]
Hrsg.: T. Sedran, 2000

Self compacting concrete – another stage in the development of the 5-component system of concrete
[10 pages, 290 kB, PDF]
Hrsg.: Horst Grube, Jörg Rickert

Rheological Approach to Passing Ability between Reinforcing Bars of Self-Compacting Concrete
Rheological approach to the better understanding of the passing behaviour of SCC between reinforcing bars. [12 pages, 183 kB, PDF]
Hrsg.: Takafumi Noguchi, S.G. Oh, Fuminori Tomosawa. University of Tokyo, 1999

Shrinkage of SCC
Report on drying shrinkage of self-compacting concrete (water/binder ratio 0.6). Results on the influence of paste content, type of plasticizer, grain size distribution, and silica fume. [7 pages, 251 kB, PDF]
Hrsg.: Käre Johansen, Tor Arne Hammer

Preliminary examinations for the production of self-compacting concrete using lignite fly ash
Two types of lignite fly ash were used for SCC: One with 22% free lime and one without free lime. Test results on fresh and hardened SCC. [16 pages, 109 kB, PDF]
Hrsg.: Jörg Dietz, Jianxin Ma, Universität Leipzig; Leipzig Annual Civil Engineering Report No. 5, 2000

SCC Self Consolidating Concrete
Basics – what is SCC, why and how it is used, how to test SCC. [2 pages, 155 kB, PDF]
Hrsg.: Concrete in Practice – National Ready Mixed Concrete Association

Self-compacting concrete – pressure to formwork and ability to deaerate
[15 pages, 383 kB, PDF]
Hrsg.: Tilo Proske, Carl-Alexander Graubner, TU Darmstadt; Annual Journal on Concrete and Concrete Structures, Vol. 17, Darmstadt 2002

Inorganic cohesion agent for self-compacting cement pastes
The invention relates to an inorganic cohesion agent for self-compacting concrete consisting of a co-precipitated SiO2/CaCO3 mixture.
Hrsg.: Tiziana De Marco, Italcementi SPA, EP1176124, 2002

Properties of SCC in Comparison with Normal Vibrated Concrete
A database with own and internationally published test results was created in order to verify, whether the properties of hardened self-compacting concrete and normal vibrated concrete differ significantly from each other. The properties compared are: compressive strength, tensile strength, modulus of elasticity, bond properties, creep and shrinkage deformations. [12 pages, 651 kB, PDF]
Hrsg.: Klaus Holschemacher, Yvette Klug

Patent: Fiber-reinforced self-compacting concrete
Short fiber-reinforced engineering cementitious composites which are self-compacting, can be prepared by adding hydrophilic polymer fibers to a cement composition containing polymeric thickener and superplasticizer. The compositions are exceptionally ductile and exhibit many of the physical characteristics previously available only with hydrophobic high performance polyethylene fibers.
Hrsg.: Victor Li, Hyun Joon Kong; University of Michigan, WO0204378, 2002

Toward Mix Design for Rheology of Self-Compacting Concrete
Information on the rheology of SCC. Its considered as Binham plastic fluid. Includes an approach to a mix design method. [12 pages, 169 kB, PDF]
Hrsg.: S.G. Oh, Takafumi Noguchi, Fuminori Tomosawa. University of Tokyo, 1999

SCC mix design
Research report on preliminary mix design. Includes details on some test methods. [41 pages, 285 kB, PDF]
Hrsg.: Örjan Petersson, Swedish Cement and Concrete Research Institute, 1998

Simulation of SCC Flow
Some details about the modeling the flow of SCC.
Hrsg.: Martys, N. S.; Ferraris, C. F.; Design and Use of Self-Consolidation Concrete. North American Conference, 1st. November 12-13, 2002, 27-30 pp, 2003

Effects of different viscosity agents on the properties of self-leveling concrete

Assessment of the fresh concrete properties of self compacting concrete
[12 pages, 426 kB, PDF]
Hrsg.: Stefan Kordts, Wolfgang Breit

Fibre Reinforced Self Compacting Concrete
Report on properties of steel fibre reinforced SCC. Slabs were cast (10 x 20 m, 15 cm thick) and the effect of steel fibres on the fresh and hardened concrete properties has been studied. [33 pages, 539 kB, PDF]
Hrsg.: Jonas Gustafsson, Betongindustri AB; Patrick Groth, LTU; 1999

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