Optimization of Synthesis Mode for Hydro Silicate-Based Supplements Used for Lime Dry Construction Mixtures

Abstract:

Article Preview

The following article presents information on the regularities of hardening of lime construction mixture samples, which were produced while adding the supplement based on calcium hydro silicate. Mathematical model of influence of the percentage of precipitation supplement and the quantity of diatomite used for synthesis upon the compression strength of the samples has been implemented.

Info:

Periodical:

Solid State Phenomena (Volume 265)

Edited by:

Prof. Andrey Radionov

Pages:

9-13

Citation:

V. I. Loganina and I.S. Pyshkina, "Optimization of Synthesis Mode for Hydro Silicate-Based Supplements Used for Lime Dry Construction Mixtures", Solid State Phenomena, Vol. 265, pp. 9-13, 2017

Online since:

September 2017

Export:

Price:

$38.00

* - Corresponding Author

[1] N.N. Shangina, Features of the production and use of dry construction mixtures for the restoration of monuments of architecture, Dry mixes, 4 (2011) 16-19.

[2] R.V. Tarasov, L.V. Makarov, O.V. Korolev, Y. Grachev, Selection of technology for nanoscale modifiers for building composites, Proceedings of the higher educational institutions, Building 10 (2010) 18-22.

[3] A. Ergün, Effects of the usage of diatomite and waste marble powder as partial replacement of cement on the mechanical properties of concrete, Key Engineering Materials. 25 (2011) 806-812.

DOI: https://doi.org/10.1016/j.conbuildmat.2010.07.002

[4] V.I. Loganina, I.S. Pyshkina, Influence of the Mode of Synthesis of the Filler on Structure and Properties of Limy Dry Construction Mixes, Contemporary Engineering Sciences. 7 no. 35 (2014) 1893-1897.

DOI: https://doi.org/10.12988/ces.2014.411210

[5] S.B. Emrullahoglu, C.B. Emrullahoglu, O.F. Emrullahoglu, Syntetic wollastonite production from raw and tailing materials, Key Engineering Materials. 264-268 (2004) 2485-2488.

DOI: https://doi.org/10.4028/www.scientific.net/kem.264-268.2485

[6] V.I. Kalashnikov, Dry construction mixtures based on local materials, Building materials. 5 (2000) 30-33.

[7] V.V. Strokova, A. I Vezentsev, D. A Kolesnikov, M.S. Shimanskaya, Properties synthesis tethyan nanotubular hydrosilicates, Herald Belgorod technological the University of them. VG Shukhov. 4 (2010) 30-34.

[8] N. Degirmenci, A. Yilmazb, Use of diatomite as partial replacement for Portland cement in cement mortars, Construction and Building Materials. 23 (2009) 284-288.

DOI: https://doi.org/10.1016/j.conbuildmat.2007.12.008

[9] V.I. Loganina, L.V. Makarova, R.V. Tarasov, K.A. Sergeeva, Increase water resistance decorative coatings on the basis of calcareous dry building mixtures, Advanced Materials Research. 1078 (2015) 171-173.

DOI: https://doi.org/10.4028/www.scientific.net/amr.1078.171

[10] A.V. Volzhensky, Y.S. Burov, V.S. Kolokolnikov, Mineral binders, 3rd ed., Rev. and ext, Stroyizdat, (1979) 476.

[11] A.V. Volzhensky, V.I. Stambulko, A.V. Ferronsky, Gipsotsementnoputstsolanovye binders, concrete and products, Stroyizdat, (1971) 318.

[12] V.I. Bochenin, Quantitative X-ray analysis of bulk raw materials for the registration of the characteristic diffraction and radiation, Defectoscopy. 11 (2007) 83-87.

[13] R. Anderhalt, P. Anzalone, R. Apkarian, Borisevich, Scanning electron microscopy for nanotechnology, Methods and Applications, Bean. Knowledge Laboratory. (2013) 600.

[14] W.I. Allen, I. Allen, L.A. McDonald, Lime as a building material, The structural engineer, 17 (2003) 317.

[15] V.I. Loganina, L.V. Makarova, R.V. Tarasov, K.A. Sergeeva, Increase water resistance decorative coatings on the basis of calcareous dry building mixtures, Advanced Materials Research. 1078 (2015) 171.

DOI: https://doi.org/10.4028/www.scientific.net/amr.1078.171

[16] L. M Sulimenko, The technology of mineral binders and products based on them 3rd ed., Revised. and ext., Higher School (2000) 303.

[17] P.I. Meshkov, V.A. Mokin, Methods for optimizing formulations dry mixes, Building materials. 5 (2000) 12-15.

[18] V.S. Lesovik, I.L. Chulkova, Formation of structure and properties of lime-restorative composites, Herald BSTU, Shukhova. 2 (2010) 41-45.

[19] S.M. Ermakov, A.A. Zhiglyavskii, The mathematical theory of optimal experimental, Nauka, (1987) 318.

[20] S.A. Dergunov, V.N. Rubtsov, Design compositions dry mixes, Orenburg: IPK GOU OSU, (2008) 97.