Evaluation of Microstructure and Mechanical Properties of Nano-Y 2 O 3 -Dispersed Ferritic Alloy Synthesized by Mechanic

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Evaluation of Microstructure and Mechanical Properties of Nano-Y2O3-Dispersed Ferritic Alloy Synthesized by Mechanical Alloying and Consolidated by High-Pressure Sintering SWAPAN KUMAR KARAK, J. DUTTA MAJUMDAR, ZBIGNIEW WITCZAK, WITOLD LOJKOWSKI, ŁUKASZ CIUPIN´SKI, K.J. KURZYDŁOWSKI, and INDRANIL MANNA In this study, an attempt has been made to synthesize 1.0 wt pct nano-Y2O3-dispersed ferritic alloys with nominal compositions: 83.0 Fe-13.5 Cr-2.0 Al-0.5 Ti (alloy A), 79.0 Fe-17.5 Cr2.0 Al-0.5 Ti (alloy B), 75.0 Fe-21.5 Cr-2.0 Al-0.5 Ti (alloy C), and 71.0 Fe-25.5 Cr-2.0 Al0.5 Ti (alloy D) steels (all in wt pct) by solid-state mechanical alloying route and consolidation the milled powder by high-pressure sintering at 873 K, 1073 K, and 1273 K (600C, 800C, and 1000C) using 8 GPa uniaxial pressure for 3 minutes. Subsequently, an extensive eﬀort has been undertaken to characterize the microstructural and phase evolution by X-ray diﬀraction, scanning and transmission electron microscopy, and energy dispersive spectroscopy. Mechanical properties including hardness, compressive strength, Young’s modulus, and fracture toughness were determined using micro/nano-indentation unit and universal testing machine. The present ferritic alloys record extraordinary levels of compressive strength (from 1150 to 2550 MPa), Young’s modulus (from 200 to 240 GPa), indentation fracture toughness (from 3.6 to 15.4 MPam), and hardness (from13.5 to 18.5 GPa) and measure up to 1.5 through 2 times greater strength but with a lower density (~7.4 Mg/m3) than other oxide dispersion-strengthened ferritic steels (

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Evaluation of Microstructure and Mechanical Properties of Nano-Y 2 O 3 -Dispersed Ferritic Alloy Synthesized by Mechanic

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