Formation of consumer properties of jeweller alloys on the basis of 585 fineness gold with modifying components

Authors

DOI:

https://doi.org/10.15587/2312-8372.2015.43824

Keywords:

gold, silver, copper, jeweler alloys, gold alloy modifiers, consumer properties

Abstract

The research results of physical and mechanical and physical and chemical properties of gold alloys are given. An influence of the chemical composition and structure on the main indicators of quality of finished jewelry is defined.

The main aim of the research was to study the patterns of properties of complex action of ligatures for the metal modifiers (silicon, cobalt, zirconium, manganese, boron).

The influence of the main alloying components and modifying additives in the "gold-silver-copper" system on the formation of physical and mechanical properties of jewelry, reliance of alloy structure formation process from heat treatment regime is proved. The efficiency of improvement of key indicators of jewelry consumer properties by optimizing the main alloying components and modifying additives of B, Co, Zr, Mn, Si in jewelry alloys from 585 fineness gold is shown.

The results related to metallurgy of precious metals and can be used in the jewelry industry.

Author Biographies

Тетяна Миколаївна Артюх, National University of Food Technologies, str. Volodymyrska, 68, Kyiv, Ukraine, 01601

Doctor of Technical Sciences, Professor

Department of examination of foods

Інна Василівна Григоренко, National University of Food Technologies, str. Volodymyrska, 68, Kyiv, Ukraine, 01601

Candidate of Technical Sciences, Senior Lecturer

Department of examination of foods

References

  1. Brepol, E. (2000). Theory and practice of jewelry. Ed. 13. SPt.: Solo, 527.
  2. Corti, K. V. (2005, March). Interaction jewelry design and jewelry technology. Jewelry business, 59–61.
  3. Livshits, V. B., Kraposhin, V. S., Linetskiy, J. L. (1980). Physical properties of metals and alloys. Moscow: Metallurgy, 320.
  4. Mac, K. T. (2006). Complete Guide to Metal Processing for jewelers. Illustrated Guide. Omsk: PH "Daedalus-Press", 206.
  5. Bredikhin, V. N., Kozhanov, V. A., Maniak, N. A., Kushnerova, E. Y. (2009). Precious Metals. Donetsk: SHEI "DonNTU", 525.
  6. Polero, M. (2007). Alloys for jewelry production. Russian jeweler, № 9, 106–109.
  7. Malyshev, V. M., Rumyantsev, D. V. (1979). Gold. Moscow: Metallurgy, 288.
  8. Khalilov, I. H., Halilov, M. I. (2001). Jewelry Casting. Ed. 2. Saratov, 130.
  9. Milani, I., Madzhian, D., Bortolamey, S. (2005). The test results of several different kinds of casting alloys that are based on red gold alloy 585. Jewelry business, № 7, 32–40.
  10. Mayorenko, V. M., Fedorov, V. N., Mozhaev, V. M., Meynarovich, E. M. et al. (1982). Mathematical planning eksperimenta at optimizing the composition of a quaternary alloy of color properties. Methods jewelry alloys and questions of rationing of precious metals. Proceedings of the Research Institute Yuvelirprom. Leningrad, 15–20.
  11. Mayorenko, V. M., Fedorov, V. N., Mozhaev, V. M. et al. (1982). Research of color properties of some copper-based alloys. Methods jewelry alloys and questions of rationing of precious metals. Proceedings of the Research Institute Yuvelirprom. Leningrad, 8–15.
  12. Starchenko, I. P., Lifshits, V. A. (1981). Mechanical and technological characteristics of white gold alloys. New domestic materials for jewelry production. Proceedings of the Research Institute Yuvelirprom. Leningrad, 69–75.
  13. Maltsev, M. V. (1964). Modification of the structure of metals and alloys. Moscow: Metallurgy, 214.
  14. Kondakov, E. N. (1976). On the question of modification of castings made of gold 583 samples. The main problems of the metallurgical process of jewelry production. Proceedings of the Research Institute Yuvelirprom, Vol. 12. Leningrad, 27–35.
  15. Gulyaev, B. B., Kondakov, E. N. (1982). Synthesis gold alloys. Methods jewelry alloys and questions of rationing of precious metals. Proceedings of the Research Institute Yuvelirprom. Leningrad, 3–8.
  16. Shlychkova, V. S., Starchenko, I. P. (1971). Effect of alloying elements on the properties of gold. Chemical technology and processing methods in the manufacture of jewelry. Proceedings of the Research Institute Yuvelirprom, Vol. 1. Leningrad, 55–67.
  17. Kuznetsov, V. P., Gutov, L. A. (1974). Influence of impurities and some filler metals on the properties of noble metal. The main problems of the metallurgical process of jewelry production. Proceedings of the Research Institute Yuvelirprom, Vol. 7. Leningrad, 27–37.
  18. Shlychkova, V. S., Starchenko, I. P. (1974). Mechanical and technological characteristics of the alloy ZlSrM 583-80. The main problems of the metallurgical process of jewelry production. Proceedings of the Research Institute Yuvelirprom. Leningrad, 50-56.
  19. Rukhman, B. D., Belousov, T. P., Zhigurenko, T. G., Gutov, L. A. (1971). New alloys in the jewelery industry. Chemical technology and processing methods in the manufacture of jewelry. Proceedings of the Research Institute Yuvelirprom, Vol. 1. Leningrad, 67–78.
  20. Damiano, Z. (2005). New research vysokokaratnyh colored gold alloys for the production of jewelry using the technology of investment casting. Jewelry business, № 2, 12–18.

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Published

2015-05-28

How to Cite

Артюх, Т. М., & Григоренко, І. В. (2015). Formation of consumer properties of jeweller alloys on the basis of 585 fineness gold with modifying components. Technology Audit and Production Reserves, 3(4(23), 42–48. https://doi.org/10.15587/2312-8372.2015.43824

Issue

Vol. 3 No. 4(23) (2015): Technology organic and inorganic substances

Section

Technology organic and inorganic substances

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Copyright (c) 2016 Тетяна Миколаївна Артюх, Інна Василівна Григоренко

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