Structural-Phase Transformations of CuZn Alloy Under Thermal-Impact Cycling

Using the Monte Carlo method, special features of structural – phase transformations in β-brass are investigated during thermal impact using thermal cycling as an example (a number of successive order – disorder and disorder – order phase transitions in the course of several heating – cooling cycles...

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Veröffentlicht in:	Russian physics journal 2017-02, Vol.59 (10), p.1532-1542
Hauptverfasser:	Potekaev, A. I., Chaplygina, A. A., Kulagina, V. V., Chaplygin, P. A., Starostenkov, M. D., Grinkevich, L. S.
Format:	Artikel
Sprache:	eng
Schlagworte:	Alloys Atomic structure Condensed Matter Physics Cooling Copper zinc alloys Hadrons Heating Heavy Ions Lasers Mathematical and Computational Physics Monte Carlo methods Monte Carlo simulation Nuclear Physics Optical Devices Optics Order parameters Phase transitions Photonics Physics Physics and Astronomy Short range order Theoretical Thermal cycling Thermodynamics
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container_title	Russian physics journal
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creator	Potekaev, A. I. Chaplygina, A. A. Kulagina, V. V. Chaplygin, P. A. Starostenkov, M. D. Grinkevich, L. S.
description	Using the Monte Carlo method, special features of structural – phase transformations in β-brass are investigated during thermal impact using thermal cycling as an example (a number of successive order – disorder and disorder – order phase transitions in the course of several heating – cooling cycles). It is shown that a unique hysteresis is observed after every heating and cooling cycle, whose presence indicates irreversibility of the processes, which suggests a difference in the structural – phase states both in the heating and cooling stages. A conclusion is drawn that the structural – phase transformations in the heating and cooling stages occur within different temperature intervals, where the thermodynamic stimuli of one or the other structural – phase state are low. This is also demonstrated both in the plots of configurational energy, long- and short-range order parameter, atomic structure variations, and structural – phase state distributions. Simultaneously, there coexist ordered and disordered phases and a certain collection of superstructure domains. This implies the presence of low – stability states in the vicinity of the order – disorder phase transition. The results of investigations demonstrate that the structural – phase transitions within two successive heating and cooling cycles at the same temperature are different in both stages. These changes, though not revolutionary, occur in every cycle and decrease with the increasing cycle number. In fact, the system undergoes training with a tendency towards a certain sequence of structural – phase states.
doi_str_mv	10.1007/s11182-017-0942-9
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A conclusion is drawn that the structural – phase transformations in the heating and cooling stages occur within different temperature intervals, where the thermodynamic stimuli of one or the other structural – phase state are low. This is also demonstrated both in the plots of configurational energy, long- and short-range order parameter, atomic structure variations, and structural – phase state distributions. Simultaneously, there coexist ordered and disordered phases and a certain collection of superstructure domains. This implies the presence of low – stability states in the vicinity of the order – disorder phase transition. The results of investigations demonstrate that the structural – phase transitions within two successive heating and cooling cycles at the same temperature are different in both stages. These changes, though not revolutionary, occur in every cycle and decrease with the increasing cycle number. 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A conclusion is drawn that the structural – phase transformations in the heating and cooling stages occur within different temperature intervals, where the thermodynamic stimuli of one or the other structural – phase state are low. This is also demonstrated both in the plots of configurational energy, long- and short-range order parameter, atomic structure variations, and structural – phase state distributions. Simultaneously, there coexist ordered and disordered phases and a certain collection of superstructure domains. This implies the presence of low – stability states in the vicinity of the order – disorder phase transition. The results of investigations demonstrate that the structural – phase transitions within two successive heating and cooling cycles at the same temperature are different in both stages. These changes, though not revolutionary, occur in every cycle and decrease with the increasing cycle number. 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I.</creatorcontrib><creatorcontrib>Chaplygina, A. A.</creatorcontrib><creatorcontrib>Kulagina, V. V.</creatorcontrib><creatorcontrib>Chaplygin, P. A.</creatorcontrib><creatorcontrib>Starostenkov, M. D.</creatorcontrib><creatorcontrib>Grinkevich, L. S.</creatorcontrib><collection>CrossRef</collection><jtitle>Russian physics journal</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Potekaev, A. I.</au><au>Chaplygina, A. A.</au><au>Kulagina, V. V.</au><au>Chaplygin, P. A.</au><au>Starostenkov, M. D.</au><au>Grinkevich, L. 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A conclusion is drawn that the structural – phase transformations in the heating and cooling stages occur within different temperature intervals, where the thermodynamic stimuli of one or the other structural – phase state are low. This is also demonstrated both in the plots of configurational energy, long- and short-range order parameter, atomic structure variations, and structural – phase state distributions. Simultaneously, there coexist ordered and disordered phases and a certain collection of superstructure domains. This implies the presence of low – stability states in the vicinity of the order – disorder phase transition. The results of investigations demonstrate that the structural – phase transitions within two successive heating and cooling cycles at the same temperature are different in both stages. These changes, though not revolutionary, occur in every cycle and decrease with the increasing cycle number. 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subjects	Alloys Atomic structure Condensed Matter Physics Cooling Copper zinc alloys Hadrons Heating Heavy Ions Lasers Mathematical and Computational Physics Monte Carlo methods Monte Carlo simulation Nuclear Physics Optical Devices Optics Order parameters Phase transitions Photonics Physics Physics and Astronomy Short range order Theoretical Thermal cycling Thermodynamics
title	Structural-Phase Transformations of CuZn Alloy Under Thermal-Impact Cycling
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