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The effects of waste marble dust applying as a fine sand on the mechanical properties of concrete
Języki publikacji
Abstrakty
Zbadano wpływ odpadowego pyłu marmurowego na właściwości betonu. Przygotowano 4 mieszanki betonowe, zastępując drobnoziarnistą frakcję piasku (ziarna poniżej 0,25 mm) pyłem w ilości odpowiednio 0%, 25%, 50% i 100% masy. W celu określenia wpływu pyłu na wytrzymałość na ściskanie badano wytrzymałości po 3, 7, 28 i 90 dniach dojrzewania. Wykonano również pomiary porowatości, pomiary prędkości rozchodzenia się fal ultradźwiękowych (UPV), modułu sprężystości i ciężaru właściwego próbek. Przeprowadzono analizę otrzymanych wyników i stwierdzono, że dodatek pyłu marmurowego, jako zamiennika frakcji < 0,25 mm przynosi zwiększenie wytrzymałości na ściskanie.
In this experimental study, the effects of using waste marble dust (WMD) as a fine material on the mechanical properties of the concrete have been investigated. For this purpose four different series of concrete-mixtures were prepared by replacing the fine sand (passing 0,25 mm sieve) with WMD at proportions of 0%,25%,50% and 100% by weight. In order to determine the effect of the WMD on the compressive strength with respect to the curing age, compressive strengths of the samples were recorded at the curing ages of 3, 7, 28 and 90-days. In addition, the porosity values, ultrasonic pulse velocity (UPV), dynamic modulus of elasticity (Edin) and the unit weights of the series were determined. Finally, all of the data were compared with each other. It was observed that the addition of WMD such that would replace the fine material passing through a 0.25 mm sieve at particular proportions has displayed an enhancing effect on compressive strength.
Wydawca
Czasopismo
Rocznik
Tom
Strony
259--267
Opis fizyczny
Bibliogr. 29 poz., il.
Twórcy
autor
- Technical Education Faculty, Construction Department, Firat University, Elazing, Turkey
Bibliografia
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- 4. B. Demirel, S. Yazicioğlu, The effect of silica fume on the mechanical properties of carbon fiber reinforced lightweight concrete. Süleyman Demirel University Journal of Natural and Applied Sciences, 11(1), 103-109 (2007).
- 5. S. Yazicioğlu: B. Demirel, The effect of the pumice of Elazig region used as pozzolanic additive on the compressive strength of concrete in increasing cure ages. Science and Engineering Journal of Firat University, 18(3), 367-374 (2006) (in Turkish).
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- 7. K. E. Alyamac, R. Ince, A preliminary concrete mix design for SCC with marble powders. Construction and Building Materials, 23, 1201-1210 (2009).
- 8. E. Güneyisi, M. Gesoglu, E. Özbay, Effects of marble powder and slag on the properties of self compacting mortars. Materials and Structures, 42. 813-826 (2009).
- 9. O. Unal, T. Uygunoglu, Investigation of mechanical properties of waste marble dusty concrete which under the effect of freeze and thaw. Turkey 4th Marble Symposium, 147-157, December 2003.
- 10. H. Akbulut, C. Gürer, Use of aggregates produced from marble quarry waste in asphalt pavements. Building and Environment, 42, 1921-1930 (2007)
- 11. H. Binici, T. Shah, O. Aksogan, H. Kaplan, Durability of concrete made with granite and marble as recycle aggregates. Journal of Materials Processing Technology, 208, 299-308 (2008).
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- 13. K. Wu, B. Chen, W. Yao, D. Zhang, Effect of coarse aggregate type on mechanical properties of high-performance concrete. Cement and Concrete Research, 31(10), 1421-1425 (2001).
- 14. H. Binici, H. Kaplan, S. Yilmaz, Influence of marble and limestone dusts as additives on some mechanical properties of concrete. Scientific Research and Essay, 2(9), 372-379 (2007).
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- 19. T. Gonen, S. Yazicioglu, The influence of mineral admixtures on the short and long-term performance of concrete, Building and Environment, 42, 3080-3085 (2007).
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- 24. ASTM C39, Standard test method for compressive strength of cylindrical concrete specimens, Annual Book of ASTM Standards (1994).
- 25. S. Valls, A. Yagüe, E. Vazquez, C. Mariscal, Physical and mechanical properties of concrete with added dry sludge from a sewage treatment plant. Cement and Concrete Research, 34, 2203-2208 (2004).
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Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BTB2-0064-0098