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Woyciechowski, Piotr Paweł
in Cooperation with on an Cooperation-Score of 37%
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Publications (5/5 displayed)
- 2018Risk of concrete carbonation with mineral industrial by-productscitations
- 2018Influence of Method of Preparation of PC Mortar with Waste Perlite Powder on Its Rheological Properties
- 2015Effect of perlite waste powder on chemical resistance of polymer concrete composites
- 2015DURABILITY ASSE SSMENT OF MONOLITHIC RAMMED EARTH WALLS citations
- 2015The influence of loam type and cement content on the compressive strengh of rammed earthcitations
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article
Effect of perlite waste powder on chemical resistance of polymer concrete composites
Abstract
The polymer concretes characterize with very high chemical resistance, achieved through the use of high-quality polymers and aggregates. The paper discusses the possibility of using the waste perlite powder, the very fine by-product of manufacturing and use of expanded perlite, as thecomponent of polyester concrete (PC), in terms of the durability of concrete under chemical attack.Partial substitution of original microfiller (usually the quartz or calcium carbonate powders) of polymer concretes by the perlite powder is one of the potential ways of disposing this waste. In the paper the polyester concretes of various quantitative compositions, thus various waste perlitepowder content, were exposed to the chemically aggressive environment. The compositions were designed on the basis of statistical design. The tested composites contained the unsaturated polyester used as the binder, the standard sand and crushed granite gravel of fraction 2-4 mm usedas the basic aggregates and mix of quartz and perlite powders used as the microfiller. The specimensof concretes were exposed to the solution of potassium hydroxide of concentration of 5% for 60days. The measure of polyester concrete resistance to potassium base were changes in mass and changes in the mechanical strength (flexural and compressive strength) of specimens subjected to chemical attack in comparison to specimens chemically unloaded. Additionally the visual inspection of the specimens outer surface and fracture surface after the flexural strength test were conducted