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Z. Górny, S. Kluska Nawarecka and K. Saja

References [1] Górny, Z. (2006). Cast aluminium bronzes, Kraków: Instytut Odlewnictwa, ISBN 83-88770-21-7. [2] Górny, Z., Kluska-Nawarecka, S. & Saja, K. (2012). Report of statutory activity in the year 2011 - No. 1004/00. Kraków: Instytut Odlewnictwa. [3] Górny, Z. et al. Effect of heat treatment of betatisation type on structure and properties of Ca modified CuAl10Fe3Mn2 alloy. Identification of phases rich in Fe, their morphology and distribution. Experimental studies and computer simulation

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J. Pezda

., & Seifeddine, S. (2010). Optimisation of solution treatment of cast Al-Si-Cu alloys. Materials and Design, 31, 44-49. DOI:10.1016/j.matdes.2009.10.035. [7] Pezda, J. (2010). Effect of heat treatment operations on the Rm tensile strength of silumins. Archives of Foundry Engineering, 10(4), 61-64. [8] Pezda, J. (2010). Heat treatment of the EN AC-AlSi9Cu3(Fe) alloy. Archives of Foundry Engineering, 12(2), 99-102. [9] Wang, P.S., Lee, S.L. & Lin, J.C. (2000). Effects of solution temperature on mechanical properties of 319

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T.V. Bgasheva, E.A. Ahmetshin and E.V. Zharikov

References 1. Winotai P., Limsuwan P., Tang I.M., Limsuwan S.: Quality enhancement of Vietnamese ruby by heat treatments. Australian Gemmologist, 22 (2004), 72-77. 2. Бахтин А.И., Горобец Б.С.: Оптическая спектроскопия минералов и руд и ее применение в геологоразведочных работах. Изд-во Казан. ун-та, Казань, 1992. 3. Платонов А.Н., Таран М.Н., Балицкий В.С.: Природа окраски самоцветов. Недра, Москва, 1984. 4. Свиридов Д.Т., Свиридова Р.К., Смирнов Ю.Ф.: Оптические спектры ионов переходных

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J. Pezda

of Mg on the ageing behaviour of Al-Si-Cu 319 type aluminium casting alloys. Journal of Materials Science, 34(19), 4671-4697. DOI:10.1023/A:1004645928886. [10] Gopikrishna, S. & Binu, C.Y. (2013). Study on effects of T6 heat treatment on grain refined A319 alloy with Magnesium and Strontium addition. International Journal on Theoretical and Applied Research in Mechanical Engineering, 2(3), 59-62. [11] Elsebaie, O. (2011). The role of alloying additives and aging treatment on the impact behavior of 319 cast alloy. Materials and Design

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A. Jarco and J. Pezda

References [1] Sobczak, J.J., Balcer, E. & Kryczek, A. (2015). Polish foundry against the background of the global foundry, current state and trends. In Konferencja techniczno - szkoleniowa “Oszczędność energii i materiałów w produkcji innowacyjnych odlewów”, 11 December 2015, Kraków, Poland. (in Polish). [2] Piątkowski, J. & Matuła, T. (2015). The microstructure and mechanical properties of the AlSi17Cu5 alloy after heat treatment. Archives of Metallurgy and Materials . 60(3), 1813-1817. [3] Górny, Z. (1992). Casting non-ferrous alloys

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J. Pezda and A. Jarco

References [1] Pedersen, L. & Arnberg. L. (2001). The effect of solution heat treatment and quenching rates on mechanical properties and microstructures in AlSiMg foundry alloys. Metallurgical and Materials Transactions A. 32(3), 525-532. DOI: 10.1007/s11661-001-0069-y. [2] Górny, Z., Kluska-Nawarecka, S., Czekaj, E., Wilk-Kołodziejczyk, D. & Saja, K. (2104). Heuristic Model of the Mechanical Properties of a Hypoeutectic EN AC-42100 (EN AC-AlSi7Mg0.3) Silumin Alloy Subjected to Heat Treatment. Archives of Foundry Engineering . 14(4), 35

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D. Kopyciński, E. Guzik, D. Siekaniec and A. Szczęsny

References [1] Podrzucki, Cz. (1991). Cast Iron . Krakow: ZG STOP Publication. [2] Kosowski, A., Podrzucki, Cz. (1981). Alloy cast iron . Krakow: University scripts. [3] Studnicki, A. (2013). Role of selected modifiers in the crystallization of wear resistant chromium cast iron . Katowice-Gliwice: Ed. Commission Foundry PAN. [4] Xiang, Ch. & Yanxiang, L. (2010). Effect of heat treatment on microstructure and mechanical properties of high boron white cast iron. Materials Science and Engineering . A 528, 770-775. DOI:10.1016/j.msea.2010.09.092. [5

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P. Wieroński, J. Pezda and Ł. Ponikwia

properties of cased aluminium machine parts. Advances in Manufacturing Science and Technology. 31(4), 93-105. [6] Jarco, A. & Pezda, J. (2015). Impact of Various Types of Heat Treatment on Mechanical Properties of the EN AC-AlSi6Cu4 Alloy. Archives of Foundry Engineering. 15(2), 35-38. [7] Dmochowski, J. (1981). Fundamentals of metal processing . Warsaw: PWN. (in Polish). [8] Ponikwia, Ł. (2015). Determination of machining parameters of aluminum alloys basing on measurement of cutting forces. Unpublished master of science dissertation . Bielsko

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J. Pezda

to dispersion hardening. Archives of Foundry Engineering. 8 (3), 81-84. Wasilewski P. (2003). Comparison of testing methods for crystallization and solidification of metal alloys. Archives of Foundry. 3 (10), 323-337. Pezda J. (2011). Effect of T6 heat treatment on mechanical properties and microstructure of EN AB-42000 alloy modified with strontium, Archives of Foundry Engineering. 11 (2), 169-174.

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Lesław Kyzioł

aciers a`tres haute resistance. Mateaux, 50, No 599-600, 1975. 5. Cudny K., Puchaczewski N.: Metal alloys for ship hulls (in Polish). Wydawnictwo Morskie, Gdańsk 1989. 6. Bugłacki H.: The effect of heat treatment and chemical constitution on mechanical properties and stress corrosion of the AlZn5Mg1 alloy in welded ship constructions. Ph. D. thesis (in Polish). Gdansk University of Technology. Gdańsk, 1981. 7. Cudny K et. al.: Summary of examination of weldability and corrosion resistance of the AlZn5Mg3 alloy. Scientific