Project

Applicant

Rheology-active additives in OPC based formulations - From nano/micro-scale structures to macro scale properties - Neubauer, Jürgen
Stephan, Dietmar
Rheological properties of fresh concrete and their molecular origin analyzed by novel combined rheological methods Wilhelm, Manfred
Rheology of the lubrication layer based on a two-phase liquid-granular flow approach Schwarze, Rüdiger
The characterization of the rheological properties of suspension, mortar and concrete under the influence of hydration, temperature, pressure and vibration Garrecht, Harald
Form filling ability of fresh concrete: A time and hydration dependent approach Gehlen, Christoph
Koenders, Eduardus
Simulation based modelling of time- and shear-dependent disperse and rheological properties of cement suspensions Budelmann, Harald
Krauss, Hans-Werner
Kwade, Arno
Schilde, Carsten
Investigating the Rheological Behavior of Low Water-to-Cement Concretes Admixed With Superplasticizers and Co-Dispersants and the Underlying Dispersion Mechanism Plank, Johann
Superposing particle interactions and hydration effects on the rheology of accelerated cementitious systems (SPHERE) von Klitzing, Regine
Schmidt, Wolfram
Stephan, Dietmar
Analysis of Time-variant Nano- and Microscopic Mechanisms for Modelling the Meso- and Macroscopic Segregation Stability of Concrete Subject to Vibration Bigall, Nadja-Carola
Flow-induced particle migration in cement-based materials at high shear rates Mechtcherine, Viktor
Component additive approach to predict cement paste rheology considering mineral and particle heterogeneity on different scales (CONCERT) Haist, Michael
Ludwig, Horst-Michael
Schäfer, Thorsten
Internal dynamics in concrete and model systems of concrete: 3D particle tracking, flow and concentration profiles. Auernhammer, Günter K.
Superplasticizer/Particle Interactions and its Effect on Microstructure, Viscosity and Thixotropy of Cementitious Suspensions Lowke, Dirk
Direct numerical simulation of dynamic aggregate migration in fresh concrete using multi-scale Smoothed-Particle Hydrodynamics Steeb, Holger
Effects of mesoscopic constituents on the rheological behaviour of cementitious materials in the context of additive construction (AC) Mechtcherine, Viktor
Understanding fresh concrete flow by advanced rheological characterization Schmid, Hans-Joachim
Stability of concrete subjected to vibration – Analysis of the nano- and microscopic structural build-up and structural breakdown behavior of cementitious suspensions Lohaus, Ludger

Contact


TU Dresden
Institute of Construction Materials
01062 Dresden, Deutschland
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