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Showing results 1 to 10 of 549 (Search time: 0.0 seconds).

Effect of Additive Elements (x = Cr, Mn, Zn, Sn) on the Phase Evolution and Thermodynamic Complexity of AlCuSiFe-x High Entropy Alloys Fabricated via Powder Metallurgyoa mark
  • 2022-09-01
  • Metals and Materials International, Vol.28, pp.2216-2224
  • Korean Institute of Metals and Materials
Understanding the role of Si alloying on the structural, mechanical, wear and high temperature oxidation behavior of CrFeNiTiX (X=Si) high entropy alloysoa mark
  • Nagarjuna, Cheenepalli;
  • Lee, Hansung;
  • Dewangan, Sheetal Kumar;
  • Rao, K. Raja;
  • Pillai, Gokul M.;
  • Kumar, Vinod;
  • Ahn, Byungmin
  • 2024-11-01
  • Journal of Materials Research and Technology, Vol.33, pp.5119-5135
  • Elsevier Editora Ltda
Controlled Valence Electron Concentration Approach to Tailor the Microstructure and Phase Stability of an Entropy-Enhanced AlCoCrFeNi Alloy
  • 2022-05-01
  • Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, Vol.53, pp.1831-1844
  • Springer
Microstructure and Mechanical Characteristics of AlCoCrFeNi-Based ODS High-Entropy Alloys Consolidated by Vacuum Hot Pressing
  • Rao, K. Raja;
  • Dewangan, Sheetal Kumar;
  • Seikh, A. H.;
  • Sinha, Sudip Kumar;
  • Ahn, Byungmin
  • 2024-03-01
  • Metals and Materials International, Vol.30, pp.726-734
  • Korean Institute of Metals and Materials
Dry sliding wear and friction behavior of powder metallurgy FeCoNiAlSi0.2 high-entropy alloys
  • 2023-10-15
  • Wear, Vol.530-531
  • Elsevier Ltd
Phase separation and mechanical behavior of AlCoCrFeNi-X (X = Cu, Mn, Ti) high entropy alloys processed via powder metallurgy
  • 2021-12-01
  • Intermetallics, Vol.139
  • Elsevier Ltd
Exploring strengthening mechanism of FeCoNiAl high-entropy alloy by non-metallic silicon addition produced via powder metallurgy
  • 2023-06-25
  • Journal of Alloys and Compounds, Vol.947
  • Elsevier Ltd
Oxidative and abrasive wear of multiphase AlSi0.75TiMnFeCux (X = 0, 0.25, 0.5) high entropy alloy under non-lubricating reciprocating motion
  • 2023-01-01
  • Powder Metallurgy, Vol.66, pp.623-634
  • Taylor and Francis Ltd.
Microstructural evolution and mechanical properties of non-Cantor AlCuSiZnFe lightweight high entropy alloy processed by advanced powder metallurgy
  • 2020-10-21
  • Materials Science and Engineering: A, Vol.797
  • Elsevier Ltd
Tailoring compressive strength and absorption energy of lightweight multi-phase alcusifex (X = cr, mn, zn, sn) high-entropy alloys processed via powder metallurgyoa mark
  • 2021-09-01
  • Materials, Vol.14
  • MDPI
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