+91 8617752708

Journal of Materials Science Research and Reviews, .,Vol.: 1, Issue.: 1

Original-research-article

Suitability of Static Yield Stress Evolution to Assess Thixotropy of Flowable Cementitious Materials

 

Joseph J. Assaad1*

1Department of Civil and Environmental Engineering, Notre Dame University, Zouk Mosbeh, P.O.Box 72, Lebanon.

Article Information
Editor(s):
(1) Suraya Hani Bt Adnan, Associate Professor, Department Civil Engineering Technology, Faculty of Engineering Technology, Universiti Tun Hussein Onn Malaysia, Malaysia.
Reviewers:
(1) Chong Leong, Gan, Institute of Nano Electronic Engineering, Universiti Malaysia Perlis, Malaysia.
(2) R. O. Oduola, Ladoke Akintola University of Technology, Nigeria.
Complete Peer review History: http://www.sciencedomain.org/review-history/24295

Abstracts

Behavior of self-consolidating concrete (SCC) after casting (such as stability, formwork pressure, and multi-layer interfaces) is directly affected by the flocculation aspect of thixotropy. The main objective of this paper is to evaluate the suitability of static yield stress (τ0) evolution over time to assess the magnitude of thixotropy. Three series of highly flowable mortar mixtures were tested using the four-bladed vane method, and the results were compared with the cohesion (C) values obtained by direct shear. Test results have shown that τ0 and C responses determined at given resting time are quite close to each other, indicating an adequate correlation between thixotropy determined using vane and direct shear methods. This reflects the suitability of considering τ0 evolution over time to quantify the flocculation aspect of thixotropy, as well as its robustness as it is not affected by the testing method.

Keywords :

Fresh concrete; thixotropy; four-bladed vane; direct shear test.

Full Article - PDF    Page 1-14

Review History    Comments

Our Contacts

Guest House Road, Street no - 1/6,
Hooghly, West Bengal,
India

+91 8617752708

 

Third Floor, 207 Regent Street
London, W1B 3HH,
UK

+44 20-3031-1429