Stages of Mechanical Alloying in Systems with Different Solubility Cu–Zn and Au–Co in the Case of Cold and Low-Temperature Deformation by Torsion Under Pressure

Methods of X-ray structural analysis and durometry, as well as electron microscopy were used to identify the stages of mechanical alloying in the case of torsion under high quasi-hydrostatic pressure on Bridgman anvils in the Cu–Zn and Au–Co systems that have different mutual solubility and enthalpy...

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Veröffentlicht in:	Russian physics journal 2018-09, Vol.61 (5), p.942-948
Hauptverfasser:	Tolmachev, T. P., Pilyugin, V. P., Patselov, A. M., Antonova, O. V., Chernyshev, E. G., Ancharov, A. I., Degtyarev, M. V.
Format:	Artikel
Sprache:	eng
Schlagworte:	Alloy systems Alloys Analysis Anvils BOILING POINTS BRASS COBALT Cold pressing Condensed Matter Physics CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY COPPER CRYOGENICS DEFORMATION Deformation mechanisms DISSOLUTION ELECTRON MICROSCOPY Enthalpy Equilibrium conditions Evolution GOLD Hadrons Heavy Ions Hydrostatic pressure Lasers Liquid nitrogen Low temperature Mathematical and Computational Physics Mechanical alloying Metals Metals (Materials) MIXING HEAT NITROGEN Nuclear Physics Optical Devices Optics Photonics Physics Physics and Astronomy PLASTICITY POWDERS Powders (Particulate matter) PRESSURE RANGE MEGA PA 10-100 SOLID SOLUTIONS SOLUBILITY Specialty metals industry Structural analysis Temperature TEMPERATURE RANGE 0273-0400 K Theoretical TORSION ZINC
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container_title	Russian physics journal
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creator	Tolmachev, T. P. Pilyugin, V. P. Patselov, A. M. Antonova, O. V. Chernyshev, E. G. Ancharov, A. I. Degtyarev, M. V.
description	Methods of X-ray structural analysis and durometry, as well as electron microscopy were used to identify the stages of mechanical alloying in the case of torsion under high quasi-hydrostatic pressure on Bridgman anvils in the Cu–Zn and Au–Co systems that have different mutual solubility and enthalpy of mixing. It was established that decrease in temperature of mechanical alloying from room temperature (cold deformation) to the boiling temperature of liquid nitrogen (80 К, low-temperature deformation) has a considerable impact on mechanical alloying at different processing stages and on characteristics of an alloy synthesized by deformation. In the Cu–Zn system, when the ratio of powder components corresponds to the solid solution of α-brass in equilibrium state, as deformation increased, one observed consecutive change of evolution stages of the powder mix to the state of copper-based solid solution. At the same time, when processing temperature decreases, larger deformation is required to achieve analogous structural changes. In the Au–Co system characterized by absence of solubility at room and lower temperatures, one also observes the stages of powder mix evolution with the increase in deformation. However, complete dissolution occurs in the case of processing at 80 К, while larger deformation is required in the case of increase in mechanical alloying temperature. The paper examines possible mechanisms of solid solution formation in the system of components that are mutually insoluble under equilibrium conditions.
doi_str_mv	10.1007/s11182-018-1481-8
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In the Cu–Zn system, when the ratio of powder components corresponds to the solid solution of α-brass in equilibrium state, as deformation increased, one observed consecutive change of evolution stages of the powder mix to the state of copper-based solid solution. At the same time, when processing temperature decreases, larger deformation is required to achieve analogous structural changes. In the Au–Co system characterized by absence of solubility at room and lower temperatures, one also observes the stages of powder mix evolution with the increase in deformation. However, complete dissolution occurs in the case of processing at 80 К, while larger deformation is required in the case of increase in mechanical alloying temperature. 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P.</creatorcontrib><creatorcontrib>Pilyugin, V. P.</creatorcontrib><creatorcontrib>Patselov, A. M.</creatorcontrib><creatorcontrib>Antonova, O. V.</creatorcontrib><creatorcontrib>Chernyshev, E. G.</creatorcontrib><creatorcontrib>Ancharov, A. I.</creatorcontrib><creatorcontrib>Degtyarev, M. V.</creatorcontrib><title>Stages of Mechanical Alloying in Systems with Different Solubility Cu–Zn and Au–Co in the Case of Cold and Low-Temperature Deformation by Torsion Under Pressure</title><title>Russian physics journal</title><addtitle>Russ Phys J</addtitle><description>Methods of X-ray structural analysis and durometry, as well as electron microscopy were used to identify the stages of mechanical alloying in the case of torsion under high quasi-hydrostatic pressure on Bridgman anvils in the Cu–Zn and Au–Co systems that have different mutual solubility and enthalpy of mixing. It was established that decrease in temperature of mechanical alloying from room temperature (cold deformation) to the boiling temperature of liquid nitrogen (80 К, low-temperature deformation) has a considerable impact on mechanical alloying at different processing stages and on characteristics of an alloy synthesized by deformation. In the Cu–Zn system, when the ratio of powder components corresponds to the solid solution of α-brass in equilibrium state, as deformation increased, one observed consecutive change of evolution stages of the powder mix to the state of copper-based solid solution. At the same time, when processing temperature decreases, larger deformation is required to achieve analogous structural changes. In the Au–Co system characterized by absence of solubility at room and lower temperatures, one also observes the stages of powder mix evolution with the increase in deformation. However, complete dissolution occurs in the case of processing at 80 К, while larger deformation is required in the case of increase in mechanical alloying temperature. The paper examines possible mechanisms of solid solution formation in the system of components that are mutually insoluble under equilibrium conditions.</description><subject>Alloy systems</subject><subject>Alloys</subject><subject>Analysis</subject><subject>Anvils</subject><subject>BOILING POINTS</subject><subject>BRASS</subject><subject>COBALT</subject><subject>Cold pressing</subject><subject>Condensed Matter Physics</subject><subject>CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY</subject><subject>COPPER</subject><subject>CRYOGENICS</subject><subject>DEFORMATION</subject><subject>Deformation mechanisms</subject><subject>DISSOLUTION</subject><subject>ELECTRON MICROSCOPY</subject><subject>Enthalpy</subject><subject>Equilibrium conditions</subject><subject>Evolution</subject><subject>GOLD</subject><subject>Hadrons</subject><subject>Heavy Ions</subject><subject>Hydrostatic pressure</subject><subject>Lasers</subject><subject>Liquid nitrogen</subject><subject>Low temperature</subject><subject>Mathematical and Computational Physics</subject><subject>Mechanical alloying</subject><subject>Metals</subject><subject>Metals (Materials)</subject><subject>MIXING HEAT</subject><subject>NITROGEN</subject><subject>Nuclear Physics</subject><subject>Optical Devices</subject><subject>Optics</subject><subject>Photonics</subject><subject>Physics</subject><subject>Physics and Astronomy</subject><subject>PLASTICITY</subject><subject>POWDERS</subject><subject>Powders (Particulate matter)</subject><subject>PRESSURE RANGE MEGA PA 10-100</subject><subject>SOLID SOLUTIONS</subject><subject>SOLUBILITY</subject><subject>Specialty metals industry</subject><subject>Structural analysis</subject><subject>Temperature</subject><subject>TEMPERATURE RANGE 0273-0400 K</subject><subject>Theoretical</subject><subject>TORSION</subject><subject>ZINC</subject><issn>1064-8887</issn><issn>1573-9228</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2018</creationdate><recordtype>article</recordtype><recordid>eNp1kc1q3DAUhU1oIWnaB-hO0LVTSbZszXJw-gdTGpjJphshS1czCrY0lWSCd32HvkKfrE9SuS5kFbTQRTrf4XBPUbwl-IZg3L6PhBBOS0x4SWpOSn5RXBHWVuWGUv4iz7ipS855e1m8ivEB40w17VXxe5_kESLyBn0FdZLOKjmg7TD42bojsg7t55hgjOjRphO6tcZAAJfQ3g9TbwebZtRNf37--u6QdBptl7nzC5hOgDoZYfHu_KD__e_8Y3mA8QxBpikAugXjwyiT9Q71Mzr4EJfx3mkI6C5AjFn1unhp5BDhzf_7urj_-OHQfS533z596ba7UtWsSmXFGdRYKeAKGtUoQ3qoAZMWt70ivK36mlPeUL3RzBjS6Aq0llVteuBU6k11XbxbfX1MVkRlU16J8s6BSiLvsdk0nD6pzsH_mCAm8eCn4HIwQQnBjFFWtVl1s6qOcgBhnfEpSJWPhtFmTzA2v28Za2uaY7EMkBVQwccYwIhzsKMMsyBYLB2LtWOROxZLx4Jnhq5MzFp3hPAU5XnoLw5BrKA</recordid><startdate>20180901</startdate><enddate>20180901</enddate><creator>Tolmachev, T. 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V.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Stages of Mechanical Alloying in Systems with Different Solubility Cu–Zn and Au–Co in the Case of Cold and Low-Temperature Deformation by Torsion Under Pressure</atitle><jtitle>Russian physics journal</jtitle><stitle>Russ Phys J</stitle><date>2018-09-01</date><risdate>2018</risdate><volume>61</volume><issue>5</issue><spage>942</spage><epage>948</epage><pages>942-948</pages><issn>1064-8887</issn><eissn>1573-9228</eissn><abstract>Methods of X-ray structural analysis and durometry, as well as electron microscopy were used to identify the stages of mechanical alloying in the case of torsion under high quasi-hydrostatic pressure on Bridgman anvils in the Cu–Zn and Au–Co systems that have different mutual solubility and enthalpy of mixing. It was established that decrease in temperature of mechanical alloying from room temperature (cold deformation) to the boiling temperature of liquid nitrogen (80 К, low-temperature deformation) has a considerable impact on mechanical alloying at different processing stages and on characteristics of an alloy synthesized by deformation. In the Cu–Zn system, when the ratio of powder components corresponds to the solid solution of α-brass in equilibrium state, as deformation increased, one observed consecutive change of evolution stages of the powder mix to the state of copper-based solid solution. At the same time, when processing temperature decreases, larger deformation is required to achieve analogous structural changes. In the Au–Co system characterized by absence of solubility at room and lower temperatures, one also observes the stages of powder mix evolution with the increase in deformation. However, complete dissolution occurs in the case of processing at 80 К, while larger deformation is required in the case of increase in mechanical alloying temperature. The paper examines possible mechanisms of solid solution formation in the system of components that are mutually insoluble under equilibrium conditions.</abstract><cop>New York</cop><pub>Springer US</pub><doi>10.1007/s11182-018-1481-8</doi><tpages>7</tpages></addata></record>
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subjects	Alloy systems Alloys Analysis Anvils BOILING POINTS BRASS COBALT Cold pressing Condensed Matter Physics CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY COPPER CRYOGENICS DEFORMATION Deformation mechanisms DISSOLUTION ELECTRON MICROSCOPY Enthalpy Equilibrium conditions Evolution GOLD Hadrons Heavy Ions Hydrostatic pressure Lasers Liquid nitrogen Low temperature Mathematical and Computational Physics Mechanical alloying Metals Metals (Materials) MIXING HEAT NITROGEN Nuclear Physics Optical Devices Optics Photonics Physics Physics and Astronomy PLASTICITY POWDERS Powders (Particulate matter) PRESSURE RANGE MEGA PA 10-100 SOLID SOLUTIONS SOLUBILITY Specialty metals industry Structural analysis Temperature TEMPERATURE RANGE 0273-0400 K Theoretical TORSION ZINC
title	Stages of Mechanical Alloying in Systems with Different Solubility Cu–Zn and Au–Co in the Case of Cold and Low-Temperature Deformation by Torsion Under Pressure
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