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Verification of correlation between densification during spark plasma sintering and compressive creep of ultrafine-grained in-situ Al2O3-reinforced B2 aluminide matrix composites
N. T.B.N. Koundinya,
Published in Elsevier Ltd
2018
Volume: 735
   
Pages: 1921 - 1930
Abstract
The B2-Aluminide matrix (FeAl and NiAl) with in-situ Al2O3 reinforcement were synthesized using reactive milling. The oxides (Fe2O3 and NiO) were reduced by Al during high energy milling to form Al2O3. The 20 h ball milled powders were consolidated using spark plasma sintering (SPS). To understand the densification mechanisms during SPS, sintering was performed at various temperatures (750–850 °C) and applied pressures (25–100 MPa). The creep parameters are evaluated from the densification data obtained during SPS using the model proposed by Bernard and Granger. In addition, independent constant-stress compression creep studies were conducted on the dense SPS pellets. The creep studies were performed on the composites at 800 °C at different stresses (100–500 MPa). The densification studies and compression creep studies are correlated based on the creep parameters obtained from both these studies and corroborated by TEM studies of the crept samples. This correlation is found to be valid even for the in-situ composites. Thus, the analysis of densification data can be helpful in predicting the creep behavior and useful for designing the new creep resistant alloys or composites. © 2017 Elsevier B.V.
About the journal
JournalData powered by TypesetJournal of Alloys and Compounds
PublisherData powered by TypesetElsevier Ltd
ISSN09258388
Open AccessNo
Concepts (22)
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    Aluminum alloys
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    Binary alloys
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    Creep
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    Densification
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    Iron alloys
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    Iron compounds
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    Matrix algebra
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    Mechanical alloying
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    Milling (machining)
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    Nickel alloys
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    Nickel compounds
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    Reinforcement
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    Spark plasma sintering
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    Aluminides
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    Applied pressure
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    COMPRESSION CREEP
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    COMPRESSIVE CREEP
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    CREEP RESISTANT ALLOYS
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    DENSIFICATION MECHANISMS
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    IN-SITU COMPOSITE
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    ULTRA-FINE-GRAINED
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    Sintering