EFFICIENCY UPGRADING IN UTILIZATION OF LIQUID-GLASS MIXTURES. PART 2. ELECTROPHYSICAL METHODS OF ACTION

The methods of electrophysical influence on the structure of silicate binders and liquid-glass mixtures to improve their properties are generalized. Methods of influence such as ultrasonic, magnetic, electric and electrohydraulic are considered. Of great interest are The possibilities of combining physical and chemical methods of modification of liquid glass are lucrative ones. Application of electrophysical methods of influence allows to reduce quantity of expensive and scarce binding materials, to increase labor productivity at mixed preparation sites and at production of forms and cores shops. The electrophysical methods allow to reduce duration of preparation of silicate binding materials.

1. Kukuj D. M. Novye napravleniya razvitiya zhidkostekol’nyh smesej [New directions of development of liquid-glass mixtures]. Obzornaya informaciya. Tekhnologiya litejnogo proizvodstva  Overview information. Technology of foundry. Minsk, BelNIINTI Publ., 1990, 64 p.

2. Kukuj D. M. Issledovanie processov aktivacii svyazuyushchih materialov ehlektricheskimi polyami. Diss. kand. tekhn. nauk [Research of the processes of activation of binding materials by electric fields. Ph. D. In Engineering]. Minsk, 1974. 207 p.

3. Ivanov N. H. Uprochnenie smesej ul’trazvukom pri izgotovlenii sterzhnej [Strengthening of mixtures by ultrasound in the manufacture of rods]. Litejnoe proizvodstvo  Foundry production, 1975, no. 9, pp. 26.

4. Jelinek P. und Petricova, Ostrava, Hahnel U. und Flemmingtg E., Freiberg. Moglichkeiten der Modifizierung von Wasserfglaslosungen durch Magnetfeld und Ultraschallbehandlung und praktische Erfahrungen ei der Anwendung von magnetbehansdelten Wasserglastosunaen in der ČSSR (Teil 1). Giessereitechnik, 1981, no. 12, pp. 370–373.

5. Klassen V. I. Omagnichivanie vodnyh sistem [Magnetization of water systems]. Moscow, Khimiya Publ., 1982. 296 p.

6. Aksel’rod G. A., Molchanov A. D. Rastvorenie tverdyh veshchestv [Dissolution of solids]. Moscow, Khimiya Publ., 1977. 268 p. 7. Povh I. L. Tekhnicheskaya gidrodinamika [Technical Hydrodynamics]. Moscow, Mashinostroenie Publ., 1969. 542 p.

7. Iodo A. E. Issledovanie, razrabotka i vnedrenie tekhnologicheskogo processa ehlektrogidravlicheskogo modificirovaniya zhidkogo stekla. Avtoref. diss. kand. tekhn. nauk [Research, development and implementation of the technological process of electro-hydraulic fluid glass modification. Abstract of Ph. D. In Engineering]. Minsk, 1990. 20 p.

8. Ledyan Yu. P., Kukuj D. M., Dmitrovich A. M. Sostoyanie i perspektivy ispol’zovaniya ehlektronno-ionnoj tekhnologii v litejnom proizvodstve [The state and prospects of the use of electron-ion technology in foundry]. Obzornaya informaciya  Overview information. Minsk, 1978. 55 p.

9. Ryzhkov I. V., Pepenko V. D., Ridnyj A. A. Elektroforez v litejnom proizvodstve [Electrophoresis in foundry]. Litejnoe proizvodstvo  Foundry production, 1977, no. 11, pp 30–31.

10. Doroshenko S. P., Vashchenko K. I., Priluckij M. I. Issledovanie processa tverdeniya sterzhnevyh smesej v ehlektricheskom pole tokov vysokoj chastoty [Investigation of the hardening of core mixtures in the electric field of high-frequency currents]. Formovochnye materialy i formoobrazovanie  Molding materials and shaping. Kiev, IPL AN USSR Publ., 1975.

11. Vishnyakov H. I. Zhidkostekol’nye samotverdeyushchie smesi s omagnichennym svyazuyushchim [Liquid-glass self-hardening mixtures with a magnetized binder]. Litejnoe proizvodstvo  Foundry production, 1976, no. 2, pp. 21.

12. Pisarenko I. N., Yurchenko N. P. Magnitnaya obrabotka kompozicii ferrohromovyj shlak – zhidkoe steklo – voda [Magnetic treatment of the composition ferrochrome slag – liquid glass – water]. Litejnoe proizvodstvo  Foundry production, 1975, no. 10, pp. 21. 14. Cojkova R., Novotny V. Mornosti praktickeho vyuziti zpracovane vodniho skla v magnetickempoli, Slevarenstvi, 1978, vol. 26, no. 2–3, pp. 96–99.

13. Kukuj D. M. Teoreticheskie osnovy uprochneniya i razrabotka tekhnologicheskih, himicheskih i ehlektrofizicheskih metodov intensifikacii processov otverzhdeniya i regeneracii zhidkostekol’nyh smesej. Diss. dokt. tekhn. nauk [Theoretical bases of hardening and development of technological, chemical and electrophysical methods of intensification of processes of solidification and regeneration of liquid-glass mixtures. Dr. tech. sci. diss]. Minsk, 1987. 643 p.

14. Yurasov V. V., Sil’chenko T. Sh., Kidalov H. A. Issledovanie rastvoreniya silikat-glyby aktivirovannoj udarno-volnovoj obrabotkoj [Study of the dissolution of a silicate block by activated shock wave processing]. Litejshchik Rossii  Foundryman of Russia, 2008, no. 10, pp. 33–35.

15. Yurasov V. V., Sil’chenko T. Sh., Kidalov H. A. Razrabotka zhidkostekol’nogo svyazuyushchego dlya smesej litejnogo proizvodstva iz nanodispergirovannyh udarno-volnovoj obrabotkoj shchelochnyh silikatov natriya [Development of a liquid-glass binder for mixtures of foundry production from nanodispersed by shock-wave treatment of alkali sodium silicates]. Litejshchik Rossii  Foundryman of Russia, 2011, no. 2, pp. 42–46.