CHESETTI, Advika; BANERJEE, Sucharita; DASARI, Sriswaroop; NARTU, Mohan Sai Kiran; VARAHABHATLA, S.M.; SHARMA, Abhishek; RAMAKRISHNAN, Abhishek; SATKO, Daniel; GORSSE, Stephane; SALEM, Ayman; BANERJEE, Rajarshi

doi:10.1016/j.scriptamat.2022.115160

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CHESETTI, Advika
Department of Materials Science and Engineering
Center for Agile and Adaptive Manufacturing [CAAAM]

BANERJEE, Sucharita
Center for Agile and Adaptive Manufacturing [CAAAM]
University of Texas at Austin [Austin]

DASARI, Sriswaroop
Department of Materials Science and Engineering

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Scripta Materialia. 2023-03-01, vol. 225, p. 115160 (8 p.)

Elsevier

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While complex concentrated alloys (CCAs), involving a large fraction of refractory elements, are promising candidates for structural applications, their relatively high densities, processing challenges, and low plasticity, has retarded their development. Here, we report a 3D printable lowdensity precipitation strengthened CCA of composition, Al10Nb15Ta5Ti30Zr40. The chemical homogeneity in the alloy deposited using laser bed powder fusion process is substantially better as compared to the as-cast ingot. This homogeneity is attributed to the enhanced solubility at the high temperatures experienced during laser melting, small melt pool dimensions, and the high cooling rates. The as-built CCA exhibited an excellent balance of room temperature mechanical properties, a compressive yield stress ~1400 MPa, peak stress ~1700 MPa, and plastic strain exceeding 45%. These properties can be attributed to its unique as-processed microstructure consisting of refined grains incorporating a high density of sub-grain boundaries, containing a nanoscale two-phase mixture of an ordered B2 and disordered BCC solid solution phases.< Réduire

Mots clés en anglais

Refractory high entropy alloys laser additive manufacturing laser powder bed fusion microstructure mechanical properties

Refractory high entropy alloys

laser additive manufacturing

laser powder bed fusion

microstructure

mechanical properties

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3D printable low density B2+BCC refractory element based complex concentrated alloy with excellent balance of mechanical properties

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