Structure and phase transformations during hot deformation of Bi(Pb)2223 high-Tc superconductor:I Secondary phases

Imayev, M. F.; Parkhimovich, Nikolay

doi:10.22226/2410-3535-2013-3-188-192

Cited by 5 publications

(11 citation statements)

References 4 publications

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“…The phase (Bi, Pb) 3 Sr 2 Ca 2 Cu 1 O x (3221) can also be present in the samples, but it was not detected, because it is rarely encountered at T d = 865°C [3]. The Bi(Pb)2212 phase was detected only on the very edge of the examined samples.…”

Section: Resultsmentioning

confidence: 90%

“…It has been established that at all T d the dependence of the degree of basal texture F has a maximum at a certain α value. At T d = 865°C, the strongest structure is formed at small twist angles (α < 15°), while at temperatures in the interval T d = 875-885°C, the strong texture is formed at much higher twist angles (α ≈ 25°) [3].…”

Section: Introductionmentioning

confidence: 97%

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Influence of the Twist Rate Under Quasi-Hydrostatic Pressure on the Texture and Secondary Phase Particles in Bi(Pb)2223 Ceramics

Imayev

Parkhimovich

2015

Russ Phys J

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The influence of the twist rate of torsion under quasi-hydrostatic pressure on the phase composition, microstructure, and texture of superconducting Bi(Pb)2223-based ceramics is investigated at temperature Т = 865°C. It is established that a decrease in the twist rate leads to the displacement of the maxima of texture strength and of the secondary phase particle size toward smaller twist angles. The intergrowth of Bi(Pb)2223 matrix phase plates into (Sr, Ca) 14 Cu 24 O 41 particles leading to the reduction of particle sizes is revealed. The reduction of (Sr, Ca) 14 Cu 24 O 41 particle sizes correlates with the development of dynamic recrystallization of the matrix phase, which is confirmed by the texture weakening.

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Section: Resultsmentioning

confidence: 90%

Section: Introductionmentioning

confidence: 97%

Influence of the Twist Rate Under Quasi-Hydrostatic Pressure on the Texture and Secondary Phase Particles in Bi(Pb)2223 Ceramics

Imayev

Parkhimovich

2015

Russ Phys J

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“…Определение средних значений выпол-няли при объеме статистической выборки около 800 измерений. Более подробно методики получения об-разцов, КГД, исследования микроструктуры, измерения степени остроты базисной текстуры (фактор F) изложе-ны в работе [13].…”

Section: материал и методика экспериментаunclassified

“…О корреляции размеров частиц S и текстуры F речь шла в первой части работы [13]. Было установлено, что возрастание S обусловлено коагуляцией / коалесцен-цией частиц вторичных фаз.…”

Section: обсуждение результатовunclassified

“…Первая часть данной работы была посвящена ис-следованию влияния температуры КГД Т и угла кру-чения α на текстуру (фактор F), среднюю площадь S и объемную долю V частиц вторичных фаз в керамике Bi(Pb)2223 [13]. Было установлено, что наиболее острая текстура формируется при T = 865°C, α = 10° и Т = 875°C, α = 25°, при этом при Т = 875°C образуются новые ча-стицы фазы (Sr,Ca) 2 CuO 3 .…”

Section: Introductionunclassified

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Structure and phase transformations during hot deformation of Bi(Pb)2223 high-Tc superconductor: II. Texture and microstructure

Imayev¹,

Parkhimovich²

2016

LoM

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The effect of hot deformation by torsion under quasi-hydrostatic pressure at temperature T = 865°C with the twist rates of ω 1 = 5.14 · 10 -5 and ω 2 = 1.85 · 10 -4 rpm on the basal plane texture strength (factor F), the mean colony length of the matrix phase (L), the mean area (S) and the volume fraction (V) of particles of (Sr,Ca) 14 Cu 24 O 41 and (Sr,Ca) 2 CuO 3 secondary phases in a high-temperature superconducting ceramics based on the (Bi,Pb) 2 Sr 2 Ca 2 Cu 3 O 10+d {Bi(Pb)2223} phase has been studied. The correlation between all of the mentioned parameters was observed: with increasing the twist angle the F, S and L values grew reaching the maximum and then decreased. During deformation incompatible intercolony sliding led to dislocation accumulation near the colony boundaries that resulted in their local migration and growth of the colony size. The growth of particles of secondary phases was caused by their coagulation / coalescence. The decrease in the F, S and L values after reaching the maxima was caused by dynamic recrystallization. Refinement of the secondary phase particles occurred due to intergrowth of the Bi(Pb)2223 phase colonies into the particles. It was found that with increasing the twist rate from ω 1 to ω 2 the L value increased. In the case of the torsion with the twist rate of ω 2 the softening occurred only via the local migration of the colony boundaries, whereas in the case of the torsion with the twist rate of ω 1 other relaxation mechanisms, such as diffusion creep and / or dislocation sliding, presumably operated as well. This is why the colony size was found to be smaller after deformation with the lower twist rate (ω 1 ).

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A graphic approach to the analysis of a large X-ray microanalysis dataset obtained via SEM-EDS

2017

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A graphical method for phase analysis of advanced materials by EDS-SEM was developed and demonstrated on deformed superconducting Bi(Pb)2223 ceramics. Through visual representation, this method allows for the rapid and efficient analysis of large X-ray microanalysis datasets and to identify phase composition of fine particles of secondary phases against a background of other phases. The graphical method can be applied using existing software and therefore does not require the development of new programs or complex computations.

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Structure and phase transformations during hot deformation of Bi(Pb)2223 high-Tc superconductor:I Secondary phases

Cited by 5 publications

References 4 publications

Influence of the Twist Rate Under Quasi-Hydrostatic Pressure on the Texture and Secondary Phase Particles in Bi(Pb)2223 Ceramics

Influence of the Twist Rate Under Quasi-Hydrostatic Pressure on the Texture and Secondary Phase Particles in Bi(Pb)2223 Ceramics

Structure and phase transformations during hot deformation of Bi(Pb)2223 high-Tc superconductor: II. Texture and microstructure

A graphic approach to the analysis of a large X-ray microanalysis dataset obtained via SEM-EDS

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