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High Entropy B2(HfM...
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Zhang, Hanzhu,1991-Luleå tekniska universitet,Materialvetenskap
(författare)
High Entropy B2(HfMoTaTi)C and SiC Ceramic Composite
- Artikel/kapitelEngelska2019
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European Ceramic Society (ECerS),2019
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LIBRIS-ID:oai:DiVA.org:ltu-74894
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https://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-74894URI
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Språk:engelska
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Sammanfattning på:engelska
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Ämneskategori:ref swepub-contenttype
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Ämneskategori:kon swepub-publicationtype
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Refractory carbides HfC, Mo2C, TiC, TaC, B4C, and SiC were mixed with a molar ratio of 2:1:2:2:1:2 to fabricate multicomponent ceramic composite by pulsed current processing (PCP). From the starting materials that consist of face-centered cubic (FCC), hexagonal and rhombohedral crystal structures, the investigated carbide system is reported to form a single phase B2(HfMoTaTi)C high-entropy ceramic (HEC) with SiC. The HEC phase contains uniform distribution of constitutional elements Hf, Mo, Ta, Ti, B and C, according to Energy dispersive X-ray spectroscopy (EDS) and wavelength dispersive X-ray spectroscopy (WDS) results.The fabricated HEC phase displays a hexagonal close-packed (HCP) crystal structure, with a high average lattice distortion of 8.26% (see Figure). The HCP structure was observed by X-ray diffraction and selected area diffraction in transmission electron microscopy (TEM). Density-functional theory (DFT) optimization suggested that the hexagonal close-packed (HCP) crystal structure has alternating layers of metal atoms and carbon/boron atoms, i.e. metal atoms of Hf, Mo, Ta and Ti were distributed on the (0001) plane in the HCP lattice, while the carbon/boron atoms formed hexagonal 2D grids on the (0002) plane in the HCP unit cell. Despite of the vast differences in the crystal structures and lattice parameters among the utilized carbides, the formation of the unique hexagonal lattice structure of B2(HfMoTaTi)C can be a result of independent diffusion of the metal and nonmetal atoms. The sintered HEC ceramic composite exhibits excellent oxidation resistance at mediate temperature, 900 ºC for 50h, and elevated temperature, 2000 ºC for 20 s. Nanoindentation test shows that the HEC phase has a high hardness of 35 GPa. The remarkable improvement compared to the theoretical hardness value estimated based on the rule of mixtures (23 GPa) was contributed by the severe lattice distortion in the HCP structure.
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Hedman, Daniel,1989-Luleå tekniska universitet,Materialvetenskap(Swepub:ltu)danhed
(författare)
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Feng, P.China University of Mining and Technology - School of Materials Science and Engineering, Xuzhou, CHINA
(författare)
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Han, G.University of Science and Technology Beijing - School of Materials Science and Engineering, Beijing, CHINA
(författare)
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Akhtar, FaridLuleå tekniska universitet,Materialvetenskap(Swepub:ltu)farakh
(författare)
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Luleå tekniska universitetMaterialvetenskap
(creator_code:org_t)
Sammanhörande titlar
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Ingår i:XVI Conference and Exhibition of the European Ceramic Society: European Ceramic Society (ECerS), s. 338-338
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