Dilatometric and calorimetric studies on the phase transformations of the A380-type aluminum alloy during solidification and heat treatment

Dilatometric and calorimetric studies on the phase transformations of the A380-type aluminum alloy during solidification and heat treatment

In this paper, the sequence of solidification for A380-type alloys has been determined by employing techniques such as dilatometry, differential scanning calorimetry (DSC), and differential thermal analysis (DTA). Regions of balance of Cu- and Fe-rich phases present in the alloys were calculated usi...

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Bibliographic Details
Published in:Journal of thermal analysis and calorimetry Vol. 130; no. 3; pp. 1751 - 1757
Main Authors: Delgado León, Verónica Leticia, Flores Valdés, Alfredo, Torres Torres, Jesús
Format: Journal Article
Language:English
Published: Dordrecht Springer Netherlands 01-12-2017
Springer
Springer Nature B.V
Subjects:
Alloys
Aluminum (Metal)
Aluminum base alloys
Analysis
Analytical Chemistry
Calorimetry
Chemical composition
Chemistry
Chemistry and Materials Science
Copper
Differential scanning calorimetry
Dilatometry
Heat measurement
Heat treating
Heat treatment
Inorganic Chemistry
Intermetallic compounds
Intermetallic phases
Iron
Manganese
Measurement Science and Instrumentation
Phase transitions
Physical Chemistry
Polymer Sciences
Solidification
Specialty metals industry
Thermal analysis
DTA
A380 Alloy
DSC
Precipitation hardening
Solidification
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Summary:In this paper, the sequence of solidification for A380-type alloys has been determined by employing techniques such as dilatometry, differential scanning calorimetry (DSC), and differential thermal analysis (DTA). Regions of balance of Cu- and Fe-rich phases present in the alloys were calculated using Thermo-Calc software, and the results indicate that the phenomena that occur during solidification are modified by differences in the purity of the alloys. The effect of heat treatment on the morphology and chemical composition of the Fe-, Mg-, Mn-, and Cu-rich intermetallic species were obtained. For a ratio of Fe–Mn < 1, it was observed that intermetallic Al 6 FeMn begins its formation in the liquid state, precipitating with a needle-like shape. The temperatures of formation of these intermetallic phases in the solid state were identified by DSC and DTA analysis. It was found that changes in the chemical composition (relative concentrations of Fe, Mn and Si) affect the formation of the α -AlFeMnSi phase during heat treatment.
ISSN:1388-6150
1588-2926
DOI:10.1007/s10973-017-6548-1