Resistance of Polymer Dispersion Additive Modified Concrete to Light Liquids Action

Maciej Gruszczyński

doi:10.4028/www.scientific.net/AMR.941-944.730

Paper Titles

Mechanism Analysis on Concrete Column’s Recovery Strengthening
p.707

Study of Bond Behavior between Concrete and Steel Bars Based on New Beam Specimens
p.712

Study of Model Tests on Large-Span Tunnel’s Damage Caused by Overload with Arch Cover Method
p.717

Study on Moment-Curvature Hysteretic Model of Steel-Concrete Composite Box Beam
p.723

Resistance of Polymer Dispersion Additive Modified Concrete to Light Liquids Action
p.730

Analysis on Bearing Capacity of Retaining Wall with Anchor
p.734

Experimental Study on the Mechanical Properties of the Crumb Rubber Concrete Modified by Latex
p.739

The Introduction of Micro-Pile in Building Heightening and Transformation
p.743

A Study on the Snowdrift Patterns of Gable and Flat Roofs Using a Wind Tunnel
p.747

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 941-944Resistance of Polymer Dispersion Additive Modified...

Resistance of Polymer Dispersion Additive Modified Concrete to Light Liquids Action

Abstract:

Numerous concrete and reinforced concrete structures (industrial floors, petrol station or manoeuvring park pavements, elements of sewage system) are subjected to danger of permanent or periodical action of petroleum liquids that often causes the considerable reduction in concrete strength as well as decrease of bond between concrete and steel, which usually results in structure damages. The subject of the paper is estimation of influence of polymer dispersion additive (styrene-acrylic co-polymer and styrene-butadiene latex) onto durability of concrete subjected to action of different types of light liquids. The influence of polymer dispersion additive was confronted with the action of silica fume usually applied for sealing the structure of concrete. In the paper there are presented tests results for different types of light liquids onto such cement-polymer concrete properties as: strength, penetration depth of light liquids into material structure.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 941-944)

Pages:

730-733

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.941-944.730

Citation:

Cite this paper

Online since:

June 2014

Authors:

Maciej Gruszczyński*

Keywords:

Cement-Polymer Concrete, Concrete Durability, Light Liquid, Polymer Dispersion, Silica Fume (SF)

Export:

RIS, BibTeX

Price:

Permissions:

Request Permissions

* - Corresponding Author

References

[1] T. Błaszczyński: Durability of cement based composite systems influence by physico-chemical agents, in A.H. Cardon & G. Verchery (eds): Durability of polymer based composite systems for structural application, London, Elsevier Science Publisher, pp.504-513 (1991).

DOI: 10.1007/978-94-011-3856-7_43

Google Scholar

[2] T. Błaszczyński: Influence of physico-chemical agent on the cement composite materials, Physico-Chemical Mechanics, 20, pp.19-23 (1992).

Google Scholar

[3] Runkiewicz L., Konieczny K., Brzęk R.: Zmiany wytrzymałości i odkształcalności betonu zaolejonego w konstrukcji. Przegląd Budowlany nr 2 (2002).

Google Scholar

[4] Z. Su, J.M. Bijen, J.A. Larbi: Influence of polymer modification on the hydration of portland cement. Cement Concrete Research 21, pp.535-544 (1991).

DOI: 10.1016/0008-8846(91)90103-o

Google Scholar

[5] L. Czarnecki, P. Łukowski: Polimer-cement concretes. Cement Wapno Beton, No 5, pp.243-258 (2010).

Google Scholar

[6] EN 858-1: 2002, Separator systems for light liquids (e. g. oil and petrol) - Part 1: Principles of product design, performance and testing, marking and quality control.

DOI: 10.3403/02510328

Google Scholar

[7] EN 12390-3: 2009, Testing hardened concrete. Compressive strength of test specimens.

Google Scholar