"Principal component analysis and thermomechanical preference of white Au alloys without Ag "

Addition of different amounts of Cu and Ag to Au alloys, as well as some new elements (Zn and Cd), gives alloys of the different colour spectrum (from red to yellow) and different technological and metallurgical characteristics. The trend today is the implementation of new alloys not containing Ag,...

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Veröffentlicht in:	Studia Universitatis Babeș-Bolyai. Chemia 2020-01, Vol.65 (1), p.163-176
Hauptverfasser:	Mirić, Mladen, Arsić, Biljana, Ɖorđević, Miloš, Ɖorđević, Dragan, Gusković, Dragoslav, Ivanov, Svetlana
Format:	Artikel
Sprache:	eng
Schlagworte:	Alloys Analysis Electric properties Electrical conductivity Electrical engineering Hardness (Materials) Jewelry Mechanical properties Metals (Materials) Palladium Specialty metals industry Zinc (Metal)
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container_title	Studia Universitatis Babeș-Bolyai. Chemia
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creator	Mirić, Mladen Arsić, Biljana Ɖorđević, Miloš Ɖorđević, Dragan Gusković, Dragoslav Ivanov, Svetlana
description	Addition of different amounts of Cu and Ag to Au alloys, as well as some new elements (Zn and Cd), gives alloys of the different colour spectrum (from red to yellow) and different technological and metallurgical characteristics. The trend today is the implementation of new alloys not containing Ag, and including new elements, such as Ga and In. Differences in two Au alloys exist: the first alloy contains Ni and Pd, and the second alloy is without them. The values of electrical conductivity and hardness are different, due to the reduction, which was shown using PCA (r=0.985 and the strong positive correlation between hardness and electrical conductivity). Performed tests confirm that those multiphase multi component gold alloys can find their application not only in jewellery making but also in the world of modern electrical engineering. The performed statistical analysis shows strong positive and negative correlations of properties of investigated Au alloys, and it provides significant savings in the design and efficiency of metallurgical processes. Keywords: alloy, PCA, metallurgical process.
doi_str_mv	10.24193/subbchem.2020.1.13
format	Article
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Chemia</title><description>Addition of different amounts of Cu and Ag to Au alloys, as well as some new elements (Zn and Cd), gives alloys of the different colour spectrum (from red to yellow) and different technological and metallurgical characteristics. The trend today is the implementation of new alloys not containing Ag, and including new elements, such as Ga and In. Differences in two Au alloys exist: the first alloy contains Ni and Pd, and the second alloy is without them. The values of electrical conductivity and hardness are different, due to the reduction, which was shown using PCA (r=0.985 and the strong positive correlation between hardness and electrical conductivity). Performed tests confirm that those multiphase multi component gold alloys can find their application not only in jewellery making but also in the world of modern electrical engineering. The performed statistical analysis shows strong positive and negative correlations of properties of investigated Au alloys, and it provides significant savings in the design and efficiency of metallurgical processes. 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Performed tests confirm that those multiphase multi component gold alloys can find their application not only in jewellery making but also in the world of modern electrical engineering. The performed statistical analysis shows strong positive and negative correlations of properties of investigated Au alloys, and it provides significant savings in the design and efficiency of metallurgical processes. Keywords: alloy, PCA, metallurgical process.</abstract><pub>Universitatea Babes-Bolyai. Chemia</pub><doi>10.24193/subbchem.2020.1.13</doi><tpages>14</tpages><oa>free_for_read</oa></addata></record>
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subjects	Alloys Analysis Electric properties Electrical conductivity Electrical engineering Hardness (Materials) Jewelry Mechanical properties Metals (Materials) Palladium Specialty metals industry Zinc (Metal)
title	"Principal component analysis and thermomechanical preference of white Au alloys without Ag "
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