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Posts Tagged ‘RECRYSTALLIZATION (Metallurgy)’

Effects of calcium on texture and mechanical properties of hot-extruded mg–zn–ca alloys






Abstract: The effects of calcium on microstructure, texture and mechanical properties of hot-extruded Mg–Zn–Ca alloys were studied. The results showed that calcium elements can weaken the strong basal textures and refined the grain size of extruded Mg–Zn–Ca alloys. The weakening of extrusion textures with increasing content of Ca is related to the particle stimulated nucleation of recrystallization (PSN) and the particle retarded the growth of the dynamic recrystallization grains. The increase of the tensile elongation is attributing to the weakened extrusion textures and refined grains. [Copyright &y& Elsevier]


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March 1, 2012   Tags: , , , , , ,
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Room and elevated temperature mechanical properties in the as-extruded mg–al–ca–mn alloys

Abstract: Fine DRXed grains are formed in conjunction with coarse unrecrystallized regions in the as-extruded Mg–4Al–3Ca–0.3Mn (mass%) alloy produced by gravity casting technology. The unrecrystallized region exhibits strong basal texture whose basal plane is parallel to the extrusion direction. Yield anisotropy is appeared in the compressive test sample measured at ambient temperature due to formation of tensile twinning in the unrecrystallized region. The obtained 0.2% proof stresses in tension and compression are 331 and 285MPa, respectively. The yield anisotropy is improved when the test temperature increases, leading to remarkable elevated temperature mechanical properties. The room and elevated temperature mechanical properties are comparable to those in WE43A Mg and T6-treated A4032 Al alloys. [Copyright &y& Elsevier]

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Recrystallization of the hot isostatic pressed nickel-base superalloy fgh4096. ii: characterization and application

Abstract: Recrystallization of the hot isostatic pressed nickel-base superalloy FGH4096 undergoes three characteristic periods, viz., incubation, nucleation and growth. Working temperature has a great effect on its boundary migration and nucleation. In recrystallization process, the nucleation rate is obviously accelerated with the increasing working temperature. To obtain fine grains, hot working should be carried out at the temperature of 1050–1080°C. After two passes multiple forging, the grain size is significantly refined from 30.0 to 2.2μm, and the refinement mechanism is found to be the repeated dynamic recrystallization (DRX) in the multiple forging process. Equiaxed-flatted gradient microstructure is obtained via the gradient temperature heat treatment (GTHT). [Copyright &y& Elsevier]

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Study on hot deformation behavior of carbon structural steel with flow stress

Abstract: The hot deformation behaviors of carbon structural steel were investigated using isothermal compression tests performed on a Gleeble 3500 thermal-mechanical simulator at temperatures of 950–1050°C, and strain rates of 0.01–0.5s−1. Austenite grain growth behavior under different heating conditions was also studied. The relationships among average grain size, soaking temperature, and time were determined. The flow stress under dynamic recrystallization (DRX) conditions was analyzed, and the critical strain, as a function of the deformation parameters, was measured. The dependence of peak strain on strain rate and temperature obeys a hyperbolic sine equation with a Zener–Hollomon parameter. Using regression analysis, the DRX activation energy was determined and the DRX grain size model of the steel was constructed. Meanwhile, an approximate model based on the flow curves was investigated to determine the recrystallized fraction under different conditions, after which the DRX kinetics model was established. The model predictions show good agreement with the experimental results. [Copyright &y& Elsevier]

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Hot deformation behavior of mechanically alloyed al6063/0.75al2o3/0.75y2o3 nano-composite—a study using constitutive modeling and processing map

Abstract: The hot deformation behavior of mechanically alloyed (MA’ed) Al6063/0.75Al2O3/0.75Y2O3 nano-composite was characterized in the temperature and strain rate ranges of 300–500°C and 0.001–1s−1 using compression test. Hot workability is interpreted by processing maps based on dynamic material modeling (DMM) and constitutive model was established based on sine-hyperbolic Arrhenius kinetic rate equation. Dynamic recrystallization (DRX) occurs in the temperature range of 400–500°C and strain rate range of 0.001–0.1s−1. The optimum processing parameters for hot working of MA’ed Al6063/0.75Al2O3/0.75Y2O3 nano-composite was identified to be in two domains, viz.: (i) T =395–440°C and and (ii) T =440–500°C and respectively with maximum efficiency of about 37–39% respectively. At strain rates ranging from 0.1 to 1s−1 the nano-composite exhibits flow instability for all temperatures investigated. The average apparent activation energy for hot deformation is calculated to be 181kJ/mol and flow behavior of the material was styled through a constitutive model. The reasons for the flow instability have been observed to be the surface cracking, void formation, matrix cracking, pores and wedge cracking. [Copyright &y& Elsevier]

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Effect of pass strain and temperature on recrystallisation in magnesium alloy az31 after interrupted cold deformation

The isothermal annealing behaviour of magnesium (Mg) alloy AZ31 deformed by multi-directional forging (MDF) at ambient temperature is investigated at temperatures ranging from 443 to 518 K. With increasing pass strain (Δε) in MDF, the recrystallization time curve shifts to shorter times. The Johnson-Mehl-Avrami-Kolmogorov (JMAK) exponent rises from 2.6 to 4.7, likely because microstructures with much higher density and finer twins evolve and are more homogeneously distributed at higher Δε. The activation energy and JMAK exponent for recrystallization are 120 kJ/mol and 2.6, and 58 kJ/mol and 4.7 at low- and high-temperature regions, respectively. The annealing process occurring after cold deformation is controlled by discontinuous recrystallization. In this research, this annealing process is discussed and compared with hot-deformed Mg alloy. [ABSTRACT FROM AUTHOR]

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Mechanical and microstructural analysis of 2205 duplex stainless steel under hot working condition

Hot deformation characteristics of 2205 duplex stainless steel were analyzed by performing hot compression tests at a temperature range of 950-1200 °C and a strain rate of 0.001-1 s. Flow stress was modeled by the constitutive equation of hyperbolic sine function. The constants of n, A, α, and the apparent activation energy were determined at different strains. They were then fitted by polynomial equations. Using the hyperbolic sine function and the relations derived between constants and strain flow curves were successfully modeled. Microstructural evolutions were characterized using optical microscopy and electron back scattered diffraction techniques. The results showed that dynamic recovery in ferrite is accelerated at higher temperatures followed by transformation to continuous dynamic recrystallization. Dynamic recrystallization in austenite was postponed by the accommodation of strain in ferrite and very few internal boundaries in austenite. At high strain rates, dynamic recovery in ferrite and dynamic recrystallization in austenite are very slow. Consequently, the total recrystallized fraction decreases. At low temperatures this situation may cause flow instabilities. At low strain rates, softening processes dominate in austenite and ferrite whereas at intermediate strain rates, the formation of substructures is observed in both phases. [ABSTRACT FROM AUTHOR]

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Microstructural stability of ultrafine-grained niobium–zirconium alloy at elevated temperatures

Abstract: The present study reports on microstructural evolution upon static annealing treatment and elevated-temperature low-cycle fatigue (LCF) of an ultrafine-grained (UFG) body-centered cubic (bcc) niobium–zirconium (NbZr) alloy, processed by equal channel angular processing (ECAP) at room temperature. UFG NbZr showed recovery and recrystallization at homologous temperatures, which are in the same range as those of another UFG bcc material, i.e. interstitial free (IF) steel. Unlike the UFG IF steel, the UFG NbZr featured a distinct plateau of decreased hardness due to recovery at temperatures below the recrystallization limit. This was attributed to the absence of dynamic recovery during ECAP due to the low homologous temperature of T h =0.11 (T h =0.16 for IF steel) at room temperature processing. Strain-controlled elevated-temperature LCF tests performed in vacuum revealed stable cyclic deformation response up to 600°C (T h =0.32). At higher temperatures, but still below the static recrystallization limit (≈900°C, T h =0.43), cyclic softening, rapid decrease of mean stress and premature failure were observed. As compared to the UFG IF steel, cyclic stability is preserved up to higher T h due to the stabilizing effect of solid solution alloying elements, i.e. mainly Zr. In the case of the UFG IF steel, localized grain coarsening at the crack tip caused premature failure upon elevated-temperature LCF below the static recrystallization temperature. The more stable microstructure in the UFG NbZr did not show any localized alterations in the vicinity of the crack tip, but instead slightly coarsened throughout the whole gauge length. In combination with the results obtained on the UFG IF steel in previous studies, a comprehensive summary of the microstructural evolution of UFG bcc materials at elevated temperatures is presented. [Copyright &y& Elsevier]

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