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Room‐temperature mechanical properties of a high‐entropy diboride

Alec C. Murchie, Jeremy Watts, William G. Fahrenholtz, Gregory E. Hilmas

2022International Journal of Applied Ceramic Technology45 citationsDOI

Abstract

Abstract The mechanical properties of a (Hf,Mo,Nb,Ta,W,Zr)B 2 high‐entropy ceramic were measured at room temperature. A two‐step synthesis process was utilized to produce the (Hf,Mo,Nb,Ta,W,Zr)B 2 ceramics. The process consisted of a boro/carbothermal reduction reaction followed by solid solution formation and densification through spark plasma sintering. Nominally, phase pure (Hf,Mo,Nb,Ta,W,Zr)B 2 was sintered to near full density (8.98 g/cm 3 ) at 2000°C. The mean grain size was 6 ± 2 µm with a maximum grain size of 17 µm. Flexural strength was 528 ± 53 MPa, Young's modulus was 520 ± 12 GPa, fracture toughness was 3.9 ± 1.2 MPa·m 1/2 , and hardness (HV 0 . 2 ) was 33.1 ± 1.1 GPa. A Griffith‐type analysis determined the strength limiting flaw to be the largest grains in the microstructure. This is one of the first reports of a variety of mechanical properties of a six‐component high‐entropy diboride.

Topics & Concepts

Materials scienceSpark plasma sinteringFlexural strengthMicrostructureCeramicFracture toughnessGrain sizeSinteringComposite materialMetallurgyHigh Entropy Alloys StudiesAdvanced materials and compositesAdvanced ceramic materials synthesis
Room‐temperature mechanical properties of a high‐entropy diboride | Litcius