ArticleName |
Carbonate mixtures of Ca, Ba, Sr and Na for refining and modifying of brass melt |
ArticleAuthorData |
Nizhny Novgorod State Technical University, Nizhny Novgorod, Russia:
V. A. Korovin, Assistant Professor of a Chair “Metallurgical Technologies and Equipment”, e-mail: mto@nntu.nnov.ru T. D. Kurilina, Senior Lecturer of a Chair “Metallurgical Technologies and Equipment” O. V. Tokarnikova, Engineer of a Chair “Metallurgical Technologies and Equipment” |
Abstract |
At present time, many plants producing castings of non-ferrous alloys meet the problem of manufacturing high-quality products, especially when using low-quality charge materials. Application of scrap and own wastes leads inevitably to contamination by various impurities and increase of gas saturation of alloys, i. e. to lowering of the quality of castings and fabrication of products that don't meet the requirements of customers. This problem can be solved by refining-modifying melt processing. The carbonates of calcium, barium, strontium and sulfate present the particular interest in this regard. They can be used to realize the classical adsorption-flotation mechanism for melt refining with simultaneous modifying effect. The article presents the thermodynamic calculations of probable chemical and thermal carbonate reactions in copper alloy melt (brass) at the temperatures of ladle treatment. The performed thermodynamic calculations characterize dissociation and slagging during usage of carbonates and allow to conclude that sodium carbonate dissociation is the most possible in the temperature range 1200–1500 K. Thermal dissociation of barium and strontium carbonates is also occurred at the melting temperature of copper alloy, while this process for calcium carbonate is complicated and takes place at higher temperatures. The article presents the results of pilot-industrial studies directed on determination of the effectiveness of brass melt ladle treatment by carbonates in the conditions of “Casting and Mechanical Plant” (Semenov town, Nizhny Novgorod region). The testing results for the mechanical properties of the samples after brass melt processing by carbonates are presented and testify on its positive influence. The results of these studies demonstrate possibility and efficiency of refining and modifying of brass melt by the carbonates mixture, which is accompanied by of increase of mechanical properties and improvement of microstructure of castings. |
References |
1. H. K. Thomas. Process for refining brass and aluminum scraps. Patent US, No. 4612168. Filled: June 31, 1985. 2. Tekhnologiya plavki mednykh splavov. Gruppa kompaniy Trast (Technology of copper alloy smelting. Group of Companies “Trust”). Available at: http://www.trastcomp.ru/texnologiya-plavki-mednyx-splavov/ (in Russian) 3. Osobennosti plavki mednykh splavov. Vse o metallurgii (Peculiarities of smelting of copper alloys. All about metallurgy). Available at : http://metalarchive.ru/liteynoe-proizvodstvo/1164-osobennosti-plavki-mednyhsplavov.html (in Russian) 4. Bydaek A. W., Bydaek A. The results of the brass refining process in the reducer conditions. Archives of Foundry Engineering. 2014. Vol. 14, No. 1. pp. 21–24. 5. Zadiranov A. N., Tkalich A. M. Sposob rafinirovaniya medi i mednykh splavov (varianty) (Method of copper and copper alloys refining (ways)). Patent RF, No. 2307874. Applied: November 21, 2005. Published : October 10, 2007. 6. Shmakov L. V., Cheremiskin V. I., Mochalov N. A., Trubetskoy K. N., Denisov G. A., Mochalov S. N., Kuznetsov A. A. Sposob rafinirovaniya medi i splavov na mednoy osnove (Method of refining of copper and copperbased alloys). Patent RF, No. 2185455. Applied : November 30, 2000. Published : July 20, 2002. 7. Badmazhapova I. B. Issledovanie protsessa i razrabotka tekhnologii rafinirovaniya latuney s tselyu polucheniya litykh zagotovok s reglamentiruemym soderzhaniem primesey kremniya, alyuminiya i svintsa : avtoreferat disser ... kandidata tekhnicheskikh nauk (Investigation of the process and development of technology of brass refining for the purpose of obtaining the castings with regulated content of impurities of silicon, aluminium and lead : thesis of inauguration of Dissertation … of Candidate of Engineering Sciences). 2009. 8. Kondratev V. A., Libenson M., Tkachev M. M., Valov A. N., Zanov V. I. Sposob modifitsirovaniya zhelezosoderzhashchikh mednykh splavov (Method of modifying of iron-bearing copper alloys). Patent RF, No. 337194. Published : January 01, 0972. 9. Copper. How products are made. Available at : http://www.madehow.com/Volume-4/Copper.html 10. Chaykina N. V., Chaykin V. A., Zadrutskiy S. P., Nemenyuk B. M., Rozum V. A. Rafiniruyushchaya smes s modifitsiruyushchim effektom na osnove karbonatov (Refining mixture with inoculating effect on basis of carbonates). Zagotovitelnye proizvodstva v mashinostroenii = Blanking Productions in Mechanical Engineering. 2012. No. 1. pp. 3–7. 11. Korovin V. A., Ulyanov V. A., Tokarnikova O. V., Sluzov P. A. Osobennosti ispolzovaniya rafiniruyushche-modifitsiruyushchego flyusa pri lite latuney (Peculiarities of use of refining-modifying flux during the brass casting). Sbornik trudov XI sezda liteyshchikov Rossii (Collection of proceedings of the XI meeting of Russian casters). Ekaterinburg, 2013. pp. 112–115. 12. Bydaek A. W., Biernat S., Bydaek A., Schlafka P. The innovative analysis of the refinement ability extractive slag. International Journal of Engineering and Innovative Technology. 2014. Vol. 4, No. 5. pp. 186– 193. 13. Rzadkosz S., Kranz M., Nowicki P., Piko M. Refining processes of selected copper alloys. Archives of Foundry Engineering. 2009. Vol. 9. pp. 29–34. 14. Korovin V. A., Leushin I. O., Tokarnikova O. V., Kurilina T. D., Sluzov P. A. Issledovanie tekhnologicheskoy effektivnosti rafinirovaniya i modifitsirovaniya mednykh splavov dispersnoy smesyu karbonatov Ca, Ba, Sr (Investigation into the Manufacturing Efficiency of Refining and Modifying Copper Alloys with a Dispersed Mixture of Carbonates Ca, Ba, Sr). Izvestiya vuzov. Tsvetnaya metallurgiya = Universities' Proceedings. Nonferrous Metallurgy. 2015. No. 4. pp. 4–8. 15. GOST 17711–93. Splavy medno-tsinkovye (latuni) liteynye. Marki (State Standard 17711–93. Cast copper-zinc alloys (brass). Grades). Introduced: January 01, 1995. (in Russian) |