Development of phase analysis methods of impurity elements in alloys based on iron and nickel

Using the method of AES with ICP, new methods have been developed for quantifying the content of various forms of existence of impurity elements: Al-Al2O3; Zr-ZrO2 in alloys based on iron (Fe-Sn) and nickel (Ni-Sn). Open systems were used to dissolve Al and Zr. To translate difficult-to-open aluminu...

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Veröffentlicht in:	IOP conference series. Materials Science and Engineering 2018-04, Vol.347 (1), p.12003
Hauptverfasser:	Andreeva, N A, Anuchkin, S N, Volchenkova, V A, Kazenas, E K, Penkina, T N, Fomina, A A
Format:	Artikel
Sprache:	eng
Schlagworte:	Alkali metal alloys Alloying elements Aluminum oxide Corundum Crystallization Ferrous alloys Impurities Iron Melting Nanoparticles Nickel Open systems Tin Zirconium Zirconium dioxide Zirconium oxides
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creator	Andreeva, N A Anuchkin, S N Volchenkova, V A Kazenas, E K Penkina, T N Fomina, A A
description	Using the method of AES with ICP, new methods have been developed for quantifying the content of various forms of existence of impurity elements: Al-Al2O3; Zr-ZrO2 in alloys based on iron (Fe-Sn) and nickel (Ni-Sn). Open systems were used to dissolve Al and Zr. To translate difficult-to-open aluminum oxides (corundum) and zirconium oxide (baddeleyite) into the solution, accelerated techniques were developed using the microwave system Mars 5. To confirm the completeness of the dissolution of oxides, a classical scheme of alloy fusion with alkali metal salts was used. Optimal analytical parameters for determining the elements: Al and Zr were chosen. The influence of matrix elements (iron and nickel) and methods of its elimination were studied. This made it possible to determine the elements in a wide concentration range from 1 * 10-3 to n% Al and from 1 * 10-4 to n% Zr without preliminary separation of the matrix with good metrological characteristics. The relative standard deviation (Sr) does not exceed 0,2. The separate determination of the contents of aluminum and aluminium oxide in the model melt of Fe-Sn-Al2O3 and zirconium and zirconium oxide in the Ni-Sn-ZrO2 model melt allowed us to estimate the number of nanoparticles participating in the heterophase interaction with tin and retired to the interface in the form of ensembles and the number of nanoparticles present in the melt and affecting the crystallization process and the structure of the metal.
doi_str_mv	10.1088/1757-899X/347/1/012003
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The separate determination of the contents of aluminum and aluminium oxide in the model melt of Fe-Sn-Al2O3 and zirconium and zirconium oxide in the Ni-Sn-ZrO2 model melt allowed us to estimate the number of nanoparticles participating in the heterophase interaction with tin and retired to the interface in the form of ensembles and the number of nanoparticles present in the melt and affecting the crystallization process and the structure of the metal.</description><identifier>ISSN: 1757-8981</identifier><identifier>EISSN: 1757-899X</identifier><identifier>DOI: 10.1088/1757-899X/347/1/012003</identifier><language>eng</language><publisher>Bristol: IOP Publishing</publisher><subject>Alkali metal alloys ; Alloying elements ; Aluminum oxide ; Corundum ; Crystallization ; Ferrous alloys ; Impurities ; Iron ; Melting ; Nanoparticles ; Nickel ; Open systems ; Tin ; Zirconium ; Zirconium dioxide ; Zirconium oxides</subject><ispartof>IOP conference series. 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Materials Science and Engineering</title><addtitle>IOP Conf. Ser.: Mater. Sci. Eng</addtitle><description>Using the method of AES with ICP, new methods have been developed for quantifying the content of various forms of existence of impurity elements: Al-Al2O3; Zr-ZrO2 in alloys based on iron (Fe-Sn) and nickel (Ni-Sn). Open systems were used to dissolve Al and Zr. To translate difficult-to-open aluminum oxides (corundum) and zirconium oxide (baddeleyite) into the solution, accelerated techniques were developed using the microwave system Mars 5. To confirm the completeness of the dissolution of oxides, a classical scheme of alloy fusion with alkali metal salts was used. Optimal analytical parameters for determining the elements: Al and Zr were chosen. The influence of matrix elements (iron and nickel) and methods of its elimination were studied. 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subjects	Alkali metal alloys Alloying elements Aluminum oxide Corundum Crystallization Ferrous alloys Impurities Iron Melting Nanoparticles Nickel Open systems Tin Zirconium Zirconium dioxide Zirconium oxides
title	Development of phase analysis methods of impurity elements in alloys based on iron and nickel
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