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Published in:
Influence of Waste Tire Rubber on Fresh and Hardened Properties of Self-Compacting Rubberized Concrete (SCRC) Read chapter Read first chapter

2020 | OriginalPaper | Chapter

Thixotropy-Dependent Form Filling Ability of Cement Paste

Authors : Mareike Thiedeitz, Thomas Kränkel, Christoph Gehlen

Published in: Rheology and Processing of Construction Materials

Publisher: Springer International Publishing

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Abstract

The form filling ability of fresh concrete is not only dependent on its rheological parameters yield stress and viscosity but on thixotropy as well. Currently, there are not many investigations regarding the effect of thixotropic structural build up on the form filling behaviour of concretes. The thixotropy of fresh concrete is mainly dependent on the thixotropic character of its cementitious paste. Thus, form filling experiments on cementitious suspensions were performed investigating their workability in dependence of their rheological parameters as preliminary tests for the workability prediction of fresh concretes. For this reason, cementitious pastes with equal solid content but varying yield stress and thixotropy were tested. Rotational rheometer measurements to investigate the rheological key parameters yield stress, viscosity and thixotropy were combined with formfilling tests in a L-shaped model formwork. With increasing thixotropy, flow distance in the formwork and thus form filling ability of the cementitious suspensions decreased. The conducted experimental series therefore is the base to enhance the prediction of form filling behaviour of fresh concrete.

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previous chapter Calibration of ASTM C230 Cone for Measuring Flow Diameter of Self-flowing Mortar According to the EFNARC Recommendation
next chapter Comparative Study on the Effect of Mixer Type on Properties of Self-compacting Mortar
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Metadata
Title
Thixotropy-Dependent Form Filling Ability of Cement Paste
Authors
Mareike Thiedeitz
Thomas Kränkel
Christoph Gehlen
Copyright Year
2020
Book
Rheology and Processing of Construction Materials

Print ISBN: 978-3-030-22565-0

Electronic ISBN: 978-3-030-22566-7

Copyright Year: 2020

DOI
https://doi.org/10.1007/978-3-030-22566-7_32