The pyrocatechin's effect on the cement-free colloidal silica bonding refractory concrete mix properties

It was shown that the pyrocatechin (1, 2-dihydrohybezene) in the amount of 0,005‒0,010 weigh percent of the solid components has the pronounced plasticization effect on the mixtures of the polifraction corundum aggregate with the bonding colloidal SiO₂-solution stabilized by the ammonium ions, the mixtures being intended for the cement-free refractory concrete's manufacturing. The article is concerned with the refractory self-consolidating compositions preparation under the condition of minimum water. Ref. 13. Tab. 3.

1. Lee, W. E. Castable refractory concretes / W. E. Lee, W. Vieira, S. Zhang [et al.] // Int. Mater. Rev. ― 2001. ― Vol. 46, № 3. ― P. 145‒167.

2. Nouri-Khezrabad, M. Nano-bonded refractory castables / M. Nouri-Khezrabad, M. A. L. Braulio, V. C. Pandolfelli [et al.] // Ceram. Int. ― 2013. ― Vol. 39. ― P. 3479‒3497.

3. Ismael, M. R. Refractory castables based on colloidal silica and hydratable alumina / M. R. Ismael, R. Salomгo, V. C. Pandolfelli // Am. Ceram. Soc. Bull. ― Vol. 86, № 9. ― P. 58‒62.

4. Ismael, M. R. Colloidal silica as a nanostructured binder for refractory castables / M. R. Ismael, R. D. dos Anjos, R. Salomro, V. C. Pandolfelli // Refractories Applications and News. ― 2006. ― Vol. 11, № 4. ― P. 16‒20.

5. Sarkar, R. Silica sol bonded high alumina castable: effect of reduced sol / R. Sarkar, A. Kumar, S. P. Das, B. Prasad // Refractories Worldforum. ― 2015. ― Vol. 7, № 2. ― P. 83‒87.

6. Jiquan, X. The characteristics of silica-sol combining refractories / X. Jiquan, P. Yuntao, X. Dayong, M. Xuesong // Adv. Mater. Res. ― 2012. ― Vol. 396/398. ― P. 288‒291.

7. Nouri-Khezrabad, M. Rheological performance of high alumina nano-bonded refractory castables containing carboxylic acids as additives / M. Nouri-Khezrabad, V. R. Salvini, A. P. Luz [et al.] // Ceram. Int. ― 2015. ― Vol. 41. ― P. 11251‒11256.

8. Studart, A. R.Selection of dispersants for high-alumina zerocement refractory castables / A. R. Studart, V. C. Pandolfelli, E. Tervoort, L. J. Gauckler // J. Eur. Ceram. Soc. ― 2003. ― Vol. 23. ― P. 997‒1004.

9. Hidber, P. C. Influence of the dispersant structure on properties of electrostatically stabilized aqueous alumina suspensions / P. C. Hidber, T. J. Graule, L. J. Gauckler // J. Eur. Ceram. Soc. ― 1997. ― Vol. 17. ― P. 239‒249.

10. Hidber, P. C. Citric acid for aqueous alumina suspensions / P. C. Hidber, T. J. Graule, L. J. Gauckler // J. Am. Ceram. Soc. ― 1996. ― Vol. 79, № 7. ― P. 1857‒1867.

11. Justnes, H.Acceleration by retardation in hydration process for cement-based materials / H. Justnes // J. Chin. Ceram. Soc. ― 2010. ― Vol. 38. ― P. 1618‒1622.

12. Брыков, А. С. Влияние пирокатехина на гидратацию портландцемента в ранний период / А. С. Брыков, Н. С. Парицкая, М. В. Мокеев // Цемент и его применение. ― 2016. ― Вып. 6. ― С. 80‒82.

13. Brykov, A.Peculiar set-retarding effect of miserly amounts of pyrocatechol on calcium aluminate cement hydration / A. Brykov, M. Voronkov, O. Nekrasova, M. Mokeev // Materials Sciences and Applications. ― 2018. ― Vol. 9, № 5. ― P. 455‒463.