Control of Cement Grout Plastic Properties

Abstract:

Article Preview

A unique apparatus is described combining properties of plastometer and Vicat apparatus. A possibility is substantiated of cement properties plastometric determination, peculiarities are found of its compatibility with different action type modifiers in operation range of W/C values.

Info:

Periodical:

Edited by:

Dr. Denis Solovev

Pages:

70-75

Citation:

V. I. Kondrashchenko et al., "Control of Cement Grout Plastic Properties", Materials Science Forum, Vol. 945, pp. 70-75, 2019

Online since:

February 2019

Export:

Price:

$41.00

* - Corresponding Author

[1] A.V. Volzhenskiy, Yu.S. Burov, V.S. Kolokolnikov, Mineral dinders, Moscow, (1979).

[2] V. Duda, Cement, transl. from German by E.Sh. Feldman, ed.by B.E. Yudovich, Moscow, (1981).

[3] F.M. Lee, Chemistry of cement and concrete, transl. from English by B.S. Levman, Moscow, (1961).

[4] W. Kurdowski, Chemistry of cement and concrete, Warsawа, (2010).

[5] M. Gawlicki i dr., Materialy budowlane. Podatawy technologii i metody badan, redakcja Jana Malolepsz ego, Krakow, (2004).

[6] B.E. Yudovich, L.G. Bernshtein, Effect of cement plant technological level on cement building technical properties in concrete. Energy-saving technologies in cement manufacture, 2nd Scientific Readings on Cement. Collection of reports, Alit Scientific Technical Center and Giprotsement-Nauka Publishers. (2006) 78-82.

[7] M.I. Yakupov, A modern method of cement hydration kinetics research International seminar-contest of young scientists and postgraduates working in the field of binders, concretes and dry mixtures. (2010) 82-84.

[8] B. Hokfors, D. Bostrom, Е. Viggh, R. Backman, On the phase chemistry of Portland cement clinker. (2015) 50–60.

DOI: https://doi.org/10.1680/adcr.13.00071

[9] A. Pankewitz, T. Huebner, D. Tausenev, Cement sieve analysis in the course of its manufacture. (2009) 46-50.

[10] A.O. Adamtsevich, Urgent aspects of calorimetry methods application in study of binders hydration kinetics in building material science. (2012) 354-360.

[11] A.A. Afanasiev, N.B. Danilov, V.D. Kopylov, Building materials process engineering. 2nd Ed., rev. and suppl, Moscow, (2006).

[12] DSTU B Methods of testing cement. Determination of setting time and volume change uniformity, Ukrainian version, (2016).

[13] DIN EN 196-3-2005 Methods of testing cement - Part 3: Determination of setting time and soundness; German version. 01.05.(2005).

[14] E.E. Segalova, P.A. Rebinder, Appearance of setting crystallization structures and develioment conditions of their strength, іn: Novelties in cement chemistry and process engineering, Moscow, (1962) 202-213.

[15] V.P. Sopov, A.l. Tkachuk, Modifying the microstructure of the cement stone chemical and mineral admixtures, 19 Internationale Baustofftagung «Ibausil». (2015) 1986-1992.

[16] V.P. Sopov, V.P. Dolgiy, A.L. Tkachuk, The compatibility problem of chemical additives with different types of cements, Naukovyi Visnyk Budivnytstva. (2015) 262-270.

[17] V.P. Seliaev, L.I. Kupriyashkina, G.R. Nugaeva, Plastic strength of filled cement systems, Izvestia Vysshikh Uchebnykh Zavedeniy: Stroitelstvo. (2009) 11-15.

[18] P.A. Rebinder, N.A. Semenenko, On cone immersion method for characterization of structural mechanical properties of plastic viscous bodies, Doklady Akadeii Nauk SSS. (1949) 835-838.

[19] V.S. Daniushevskiy, R.M. Aliev, I.F. Tolstykh, Reference guide on plugging materials, Moscow, (1987).

[20] P. Kryvenko, R. Runova, I. Rudenko, V. Skorik, Analysis of plasticizer effectiveness during alkaline cement structure formation. (2017) 35-41.

DOI: https://doi.org/10.15587/1729-4061.2017.106803