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Rheology of mortar with Portland-limestone cement CEM II/A,B-LL in relation to properties of cement

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The paper presents the results of rheological research, conducted to examine how the properties and composition of cement affects the yield stress and plastic viscosity of Portland limestone cements. Portland limestone cements used in the research were obtained by mixing four Portland cements of various chemical and phase compositions with two limestones of different origin, in an amount of 6, 10, 20 and 30% of cement mass. The yield stress and plastic viscosity were determined using the Viskomat NT rheometer, after 5 and 60 minutes from combining the constituents. Obtained results indicate a significant effect of the C3A content in cement on the rheological properties of mortars, mainly yield stress. The specific surface area of the tested cements has a lesser effect on the rheological properties of mortars with Portland limestone cements.
Rocznik
Strony
81--89
Opis fizyczny
Bibliogr. 22 poz.
Twórcy
  • MSc Eng.; Faculty of Civil Engineering, The Silesian University of Technology, Akademicka 4, 44-100 Gliwice, Poland
Bibliografia
  • [1] Cements for a low-carbon Europe, CEMBUREAU The European Cement Association.
  • [2] Chłądzyński S., Garbarcik A. (2008). Cementy wieloskładnikowe w budownictwie (Multi-component cements in civil engineering). Kraków. Stowarzyszenie Producentów Cementu.
  • [3] Piechówka M., Giergiczny Z. (2011). Wpływ kamienia wapiennego na właściwości reologiczne zaczynu cementowego (Influence of limestones on rheological properties of cementitius mortar). Budownictwo Technologie Architektura, 1, 58-61.
  • [4] Boos P., Haerdtl R. (2004). Experience report Portland limestone cement. Report Heidelberg Cement Group.
  • [5] Poitevin P. (1999). Limestone aggregate concrete, usefulness and durability. Cement & Concrete Composition, 21. 89-97.
  • [6] Schmidt. M. (1999). Cement with interground additives. Zement-Kalk-Gips 4. 87-92.
  • [7] Courard L., Herfort D., Villagran Y. (2016). Raport: Performances of limestone modified Portland cement and concrete. RILEM.
  • [8] Yahia A., Tanimura M., Khayat K.H. (2005). Experiment design to evaluate the effect of mixture parameters on rheological properties of selfconsolidating concrete equivalent mortar. Proc. 1st International Symposium on Design, Performance and Use of Selfconsolidating Concrete, 26-28 May 2005, China. 271-282.
  • [9] Gesoğlu M., Güneyisi E., Kocabağ M.E., Bayram V., Mermerdaş K. (2012). Fresh and hardened characteristics of self compacting concretes made with combined use of marble powder, limestone filler, and fly ash. Construction and Building Materials, 37, 160-170.
  • [10] Vikan H., Justnes H.(2007) Rheology of cementitious paste with silica fume or limestone. Cement & Concrete Research, 37, 1512-1517.
  • [11] Diederich P., Mouret M., de Ryck A., Ponchon F., Escadeillas G. (2012). 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 Technology, 218, 90-101.
  • [12] Gołaszewska, M. (2018). Wpływ składu cementu na właściwości reologiczne zapraw z cementów portlandzkich wapiennych(Influence of cement composition on rheological properties of mortars with Portland-limestone cement). Ujęcie aktualnych problemów budownictwa. Prace naukowe doktorantów. Anthology ed. by. Karolina Knapik, Krzysztof Gromysz. Gliwice: Wydawnictwo Politechniki Śląskiej. 37-48.
  • [13] PN-EN 196-1:2016-07 Methods of testing cement. Determination of strength
  • [14] Banfill P.F.G. (2006). Rheology Of Fresh Cement And Concrete, Rheological Review 2006. 61-130.
  • [15] Roussel N. (2011). Understanding the rheology of concrete. Woodland.
  • [16] Tattersall G., Banfill P.F.G. (1983). The Rheology of Fresh Concrete. Boston. Pitman Books Limited.
  • [17] Gołaszewski J. (2006). Reologia zapraw a reologia mieszanek betonowych (Rheology of moratrs and rheology of concrete mixes). Cement Wapno Beton, 1, 17-28.
  • [18] Szwabowski J. (1999). Reologia mieszanek na spoiwach cementowych (Rheology of mixes on cementitious binders). Gliwice. Wydawnictwo Politechniki Śląskiej.
  • [19] Banfill P.F.G. (2003). The rheology of fresh cement and concrete - a review. Proceeding of 11th International Cement Chemistry Congress, Durban, South Africa. 50-63.
  • [20] Gołaszewski J. (2008). Influence of cement properties on rheology of fresh cement mortars without and with superplasticizer. Architecture, Civil Engineering, Enviorment, 4, 49-66.
  • [21] Diamantonis N., Marinos I., Katsiotis M.S., Sakellariou A., Papathanasiou A., Kaloidas V., Katsioti M. (2010). Investigations on the influence of fine additives on the viscosity of cement paste for selfcompacting concrete, Construction and Building Materials, 24, 1518-1522.
  • [22] Tregger N., Ferrara L., Shah S. (2007). Empirical Relationships Between Viscosity And Flowtime Measurements From Minislump Tests For Cement Pastes Formulated From SCC. 5th International RILEM Symposium on Self-Compacting Concrete in Ghent, Belgium. 273-278.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-72794242-0f6a-44f8-8366-3d09ff81e490
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