2022
DOI: 10.1111/jace.18852
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High‐entropy carbide‐based ceramic cutting tools

Abstract: In this study, a novel high-entropy carbide-based ceramic cutting tool was developed. The cutting performance of three kinds of high-entropy carbide-based ceramic tools with different mechanical properties for the ISO C45E4 steel were evaluated. Although the pure (Ti 0.2 Zr 0.2 Nb 0.2 Ta 0.2 Mo 0.2 )C 0.8 ceramic cutting tool exhibited the highest hardness of 25.06 ± 0.32 GPa, the cutting performance was poor due to the chipping and catastrophic failure caused by the low toughness (2.25 ± 0.27 MPa m 1/2 ). The… Show more

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Cited by 11 publications
(9 citation statements)
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“…Sintering pressure and holding time were 40 MPa and 10 min, respectively. The hardness was measured using a HTV-PHS30 Vickers microhardness tester under a load of 5 kg with a hold time of 10 s. The tribological properties were characterized by a rotational tribometer (GHT-1000E, China) under a vacuum environment (5)(6)(7). The tribo-pairs were Al 2 O 3 balls with a diameter of 6.3 mm.…”
Section: Methodsmentioning
confidence: 99%
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“…Sintering pressure and holding time were 40 MPa and 10 min, respectively. The hardness was measured using a HTV-PHS30 Vickers microhardness tester under a load of 5 kg with a hold time of 10 s. The tribological properties were characterized by a rotational tribometer (GHT-1000E, China) under a vacuum environment (5)(6)(7). The tribo-pairs were Al 2 O 3 balls with a diameter of 6.3 mm.…”
Section: Methodsmentioning
confidence: 99%
“…To date, broad endeavors have been committed to investigating an assortment of high‐entropy ceramics, including carbides, borides, nitrides, oxides, silicides, and sulfides, which exhibits a wide range of applications 3,4 . Among them, high‐entropy carbides have stimulated concentrated research because of the high hardness and strength, good thermal stability, and various potential applications 5–7 …”
Section: Introductionmentioning
confidence: 99%
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“…[2][3][4] Often ceramic materials can be used not only for construction, tools, and biomedicine, but also as functional materials with optical, thermal, and electrical properties. [5][6][7] However, the manufacture of inorganic ceramic materials prepared with inorganic salts such as sodium silicate, calcium carbonate, calcium chloride, etc., is limited by crystallization, 8 which frequently produces powders 9 rather than monoliths with continuous structures like polymer materials. Conventionally, ceramic materials are produced at very high temperatures and under high pressures; the processes are complex and can result in high costs of the products.…”
Section: Introductionmentioning
confidence: 99%
“…Ceramic materials are usually prepared from a variety of inorganic compounds such as silicates, alumina, and titanium dioxide 2–4 . Often ceramic materials can be used not only for construction, tools, and biomedicine, but also as functional materials with optical, thermal, and electrical properties 5–7 . However, the manufacture of inorganic ceramic materials prepared with inorganic salts such as sodium silicate, calcium carbonate, calcium chloride, etc., is limited by crystallization, 8 which frequently produces powders 9 rather than monoliths with continuous structures like polymer materials.…”
Section: Introductionmentioning
confidence: 99%