Optimization of Corona Discharge Treatment of Cement Minerals

The paper presents the research into strength properties of hardening alite and belite cement paste treated by high-voltage corona discharge. The treatment process is optimized by both the time factor and process conditions of hardening of mineral-based cement paste. It is shown that the preageing of alite and belite cement paste plays an ambiguous part in high-voltage corona discharge treatment. The results of these treatment can be observed during the age hardening of cement. Belite cement hardening is characterized by the more expressed wave-like behavior of strength depending upon the continuous corona discharge treatment during 270-day cement hardening.

алит, белит, высоковольтный разряд, корона, время выдержки, время обработки, активация, прочность, alite, belite, high-voltage corona discharge, ageing time, treatment time, activation, strength

1. Safronov V.N. Elektrofizicheskie tekhnologii v proizvodstve stroitel'nykh materialov [Electrophysical production technologies for construction materials]. Tomsk: TSUAB Publ., 2014. 420 p. (rus)

2. Popkov V.I. Koronnyi razryad v linii sverkhvysokogo napryazheniya. Izbrannye trudy [Corona discharge in extra-high-voltage line. Selected Papers]. Moscow: Nauka Publ., 1990. 256 p. (rus)

3. Vazhov V.F., Kuznetsov Yu.I., Kurtenkov G.E., et al. Tekhnika vysokikh napryazhenii [Highvoltage engineering]. Tomsk: TPU Publ., 2009. – 232 p. (rus)

4. Butenko V.A., Vazhov V.F., Vishnevetskaya N.B., et al. Osnovy inzhenernoi elektrofiziki [Principles of engineering electrophysics]. Tomsk: TPU Publ., 1987. 95 p. (rus)

5. Vereshchagin V.I., Safronov V.N., Silkina O.V., et al. Vysokovol'tnaya aktivatsiya vyazhushchikh na osnove portlandtsementa – effektivnyi put' regulirovaniya fiziko-khimicheskikh protsessov gidratatsii i ekonomii tsementa [High-voltage activation of Portland cements as the efficient method of hydration process control]. Proc. 8th All-Rus. Sci. Conf. on cement chemistry and technology. Moscow: Soyuzstroimaterialy Publ., 1991. Pp. 173–176. (rus)

6. . Vagner G.R. Fiziko-khimiya protsessov aktivatsii tsementnykh dispersii [Physicochemistry of activation processes in cement dispersions]. Kiev: Naukova Dumka, 1990. – 200 p. (rus)

7. Safronov V.N. Solov'eva E.P. Kinetika nabora prochnosti tverdeyushchikh kompozitsii pri obrabotke sukhikh smesei vysokovol'tnym koronnym razryadom [Strength development of hardening compositions in treating dry mixes with corona discharge]. Vestnik TSUAB. 2013. No. 2. Pp. 250–256. (rus)

8. Solomatov, V.I. Dvorkin L.I., Khudnovskii S.M. Puti aktivatsii napolnitelei kompozitsionnykh stroitel'nykh materialov [Activation techniques for fillers of composite construction materials]. News of Higher Educational Institutions. Construction and Architecture. 1997. No. 41. Pp. 60–63. (rus)

9. Nedavnii, O.I. Safronov V.N., Alekseev A.A. Nekotorye aspekty aktivatsii mineral'nogo zapolnitelya v srede ionizirovannogo vozdukha [Towards the problem of activation of mineral fillers in ionized air]. Vestnik TSUAB. 2000. No. 1. Pp. 186–193. (rus)

10. Novopashin A.A. Mineral'nye vyazhushchie [Cementitious materials]. Kuibyshev: KISI Publ., 1979. 77 p. (rus)