High Temperature Composite of Aluminous Cement with Addition of Metakaolin and Ground Bricks Dust-Reference-Cited by-同舟云学术

High Temperature Composite of Aluminous Cement with Addition of Metakaolin and Ground Bricks Dust

Published:2013-12 Issue: Volume:486 Page:406-411
ISSN:1662-7482
Container-title:Applied Mechanics and Materials
language:
Short-container-title:AMM

Author:

Holčapek Ondřej¹,Reiterman Pavel¹,Konvalinka Petr¹

Affiliation:

1. CTU in Prague

Abstract

The following article deals with the study of mechanical properties of aluminous cement composites exposure to high temperatures. The newly designed mixtures that resist the action of high temperatures 1000 °C find their application in various fields of industrial production or in the form of fire wall for protection bearing structures. All the mechanical properties such as compressive strength and tensile strength in bending were measured on samples 160x40x40 mm. These samples were exposed to temperatures 600 °C and 1000 °C and one group of samples was reference and stayed in laboratory condition. Aluminous cement unlike the common Portland cement keeps sufficient strength even after high temperature exposure. For ensuring required ductility the basalt fibers were added to the mixture. In an effort to use of secondary raw materials as a replacement for cement as well as a suitable binder was used metakaolin and ground brick dust. Very convenient characteristics of these components are their latent hydraulic potential that makes interesting hydration products.

Publisher

Trans Tech Publications, Ltd.

Link

https://www.scientific.net/AMM.486.406.pdf

Reference10 articles.

1. Sičáková A. a kol, New generation cement concretes – Ideas, Design, Technology and Applications, Košice, ISBN 987-80-553-0040-5J, (2008).

2. J. S. Huo, Y. M. He, L. P. Xiao, B. S. Chen, Experimental study on dynamic behaviours of concrete after exposure to high temperatures up to 700 °C, Materials and Structures, (2012).

3. O. Bahr, P. Schaumann, B. Bollen, J. Bracke, Young´s modulus and Poisson´s ratio of concrete at high temperatures: Experimental Investigations, Materials and Design, (2013).

4. Collepardi, M.: Modern Concrete, ISBN 987-80-87093-75-7, Information centre ČKAIT Prague, (2009).

5. S. W. Artementko, Polymer composite materials made from carbon, basalt and glass fibers, Structure and properites, Fiber chemistry, Vol. 35, 226 – 229, (2003).

Cited by 14 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. Response of HPC incorporating mineral additive to thermal loading;AIP Conference Proceedings;2018

2. Application of Ceramic Powder as Supplementary Cementitious Material in Lime Plasters;Materials Science;2016-09-01

3. The Corner Radius Influence on the Deformation Behavior of Brick Pillars Strengthened by CFRP Confinement;Advanced Materials Research;2015-08

4. Low Cost Cement Floor Screed;Materials Science Forum;2015-07

5. Basic and Thermal Characteristics of Render with Crushed Brick;Materials Science Forum;2015-07