Tytuł artykułu
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Warianty tytułu
The use of ground limestone in concrete technology and its influence on the properties of concrete mixture and hardened concrete
Języki publikacji
Abstrakty
W artykule przedstawiono podstawowe informacje na temat wpływu dodatku mączki wapiennej do betonu na właściwości mieszanki betonowej i stwardniałego betonu.
In light of restrictions on the use of cement clinker, related to the negative environmental impact of its production, the increased use of ground limestone in concretes, both as an admixture to concrete and as a main component of cement, is imminent. The article presents basic information on the effect of adding limestone powder to concrete on the properties of the concrete mixture and hardened concrete. In properly designed concrete, limestone powder in the amount of up to 10% of the weight of cement can be used without significant negative effects on its consistency, strength and durability. With larger amounts of limestone, the effect depends on the type and fineness of limestone, while a reduction in the strength and durability of concrete proportional to the limestone content can be expected.
Wydawca
Czasopismo
Rocznik
Tom
Strony
46--49
Opis fizyczny
Bibliogr. 28 poz., tab., wykr.
Twórcy
Bibliografia
- 1. Perilli D.: Growing Portland Limestone Cement production in the US. 16 Lutego 2022 [dostęp online]: https://www.globalcement.com/news/item/13702-growing-portlandlimestone-cement-productionin-the-us (data dostępu: 29.07.2022).
- 2. CEMBUREAU: Reaching Climate Neutrality Along The Cement And Concrete Value Chain By 2050 Cementing the European Green Deal. 2020 [dostęp online]: https://cembureau.eu/media/kuxd32gi/cembureau-2050-roadmap_final-version_web.pdf (data dostępu: 29.07.2022).
- 3. PN EN 197-5:2021-07 Cement − Część 5: Cement portlandzki wieloskładnikowy CEM II/C-M i cement wieloskładnikowy CEM VI.
- 4. CEMBUREAU The European Cement Association: Cements for a low-carbon Europe. 2013.
- 5. Giergiczny Z., Piechowka-Mielnik M.: Wapień głównym składnikiem cementów portlandzkich wieloskładnikowych, Budownictwo. „Technol Archit”, 72-76/2011.
- 6. Krzowski Z.: Mineralogia i petrografia dla inżynierów budownictwa i drogownictwa. Lublin 2005.
- 7. Menetrier D.: Particle size distribution in blended cements. [In]: „8th Int Congr Chem Cem” Vol. 4, Proceeedings, Rio de Janeiro 1986, ss. 60-65.
- 8. Moir G.: Kelham S.: Developments in manufacture and use of Portland limestone cement. [In:] „Proc High-Performance Concr”, Malhotra VM, editor, USA, 1997, ss. 797-819.
- 9. PN-EN 197-1:2012: Cement − Część 1: Skład, wymagania i kryteria zgodności dotyczące cementów powszechnego użytku.
- 10. Vuk T., Tinta V., Gabrošvek R., Kaučič V.: The Effects of Limestone Addition, Clinker Type and Fineness on Properties of Portland Cement. „Cem Concr Res”, 135-139/2001.
- 11. Courard L., Herfort D., Villagran Y.: Performances of limestone modified portland cement and concrete. 2016.
- 12. Hooton R.D.: Effects of Carbonate Additions on Heat of Hydration and Sulfate Resistance of Portland. „Carbonate Addit to Cem”, American Society for Testing and Materials, Philadephia, USA 1990, ss. 73-81.
- 13. Voglis N., Kakali G., Chaniotakis E., Tsivilis S.: Portland-limestone cements. {Their} properties and hydration compared to those of other composite cements. „Cem Concr Compos”, 27/ 2005, s. 191-196. doi:10.1016/J.CEMCONCOMP.2004.02.006.
- 14. Michel F., Pierard J., Courard L., Pollet V.: Influence of physico--chemical characteristics of limestone fillers on fresh and hardened mortar performances. Belgium 2007, s. 205-210.
- 15. Hooton R.D.: Effects of Carbonate Additions on Heat of Hydration and Sulfate Resistance of Portland. „Carbonate Addit to Cem”, American Society for Testing and Materials, USA 1990, s. 73-81.
- 16. Zając M., Rossberg A., Le Saout G., Lothenbach B.: Influence of limestone and anhydrite on the hydration of Portland cements. „Cem Concr Compos”, 46/2014, s. 99-108. https://www.sciencedirect.com/science/article/pii/S0958946513001923.
- 17. Huang W., Kazemi-Kamyab H., Sun W., Scrivener K.: Effect of cement substitution by limestone on the hydration and microstructural development of ultra-high performance concrete (UHPC). „Cem Concr Compos”, 2017/86-101.
- 18. Gołaszewski J., Cygan G., Gołaszewska M.: Analysis of the Effect of Various Types of Limestone as a Main Constituent of Cement on the Chosen Properties of Cement Pastes and Mortars. „Arch Civ Eng” 65/2019, s. 75-86. https://doi.org/10.2478/ACE-2019-0035.
- 19. Kenai S., Soboyejo W., Soboyejo A.: Some Engineering Properties of Limestone Concrete. „Mater Manuf Process”, 19/2004, 949-961. doi:10.1081/AMP-200030668.
- 20. Gonzales M., Irassar E.F.: Effect of limestone ller on the sulfate resistance of low C3A portland cement. „Cem Concr Res”, 28/1998, s. 1655- 1667. doi:10.1016/S0008-8846(98)00144-6.
- 21. Dhir R.K., Limbachiya M.C., McCarthy M.J., Chaipanich A.: Evaluation of {Portland} limestone cements for use in concrete construction. „Mater Struct”, 459-473/2007.
- 22. Ramezanianpour A.A., Ghiasvand E., Nickseresht I., Mahdikhani M., Moodi F.: Influence of various amounts of limestone powder on performance of {Portland} limestone cement concretes. „Cem Concr Compos”, 31/2009, s. 715-720.
- 23. Michel F., Pierard J., Courard L., Pollet V.: Influence of physico--chemical characteristics of limestone fillers on fresh and hardened mortar performances. Belgium 2007, s. 205-210.
- 24. Marzouki A., Lecomte A.: Properties of Concrete Mixed with Portland-Limestone Cement of Different Grinding Qualities. „J Mater Civ Eng ASCE”, 29/2016, 1-9. doi:10.1061/ (ASCE)MT.1943-5533.0001763.
- 25. Palm S., Proske T., Rezvani M., Hainer S., Muller C., Graubner C.A.: Cements with a high limestone content – Mechanical properties, durability and ecological characteristics of the concrete. „Constr Build Mater” 2016, s. 308-318.
- 26. Bharadwaj K., Isgor O.B., Weiss W.J.: Supplementary cementitious materials in portland-limestone cements. „ACI Materials Journal”, 119(2)/2022, s. 141-154. doi:https://doi.org/10.14359/51734356
- 27. Diederich P., Mouret M., de Ryck A., Ponchon F., Escadeillas G.: The nature of limestone filler and self-consolidating feasibility − Relationships between physical, chemical and mineralogical properties of fillers and the flow at different states, from powder to cement-based suspension. „Powder Technol”, 2012, 90-101.
- 28. Gołaszewski J., Gołaszewska M., Cygan G.: Monografie technologii betonu: XI Konferencja Dni Betonu. Wisła, 11-13 października 2021, s. 1007-1018.
Uwagi
PL
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-b2173489-8b96-4e06-a873-dfcd41d22c66