Carbides: Transition Metal Solid‐State ChemistryBased in part on the article Carbides: Transition Metal Solid State Chemistry by Peter Ettmayer &amp; Walter Lengauer which appeared in the
            <i>Encyclopedia of Inorganic Chemistry, First Edition</i>
            .

Lengauer, W.; Eder, Alexander

doi:10.1002/0470862106.ia034

Cited by 2 publications

(2 citation statements)

References 37 publications

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“…• Estudar as propriedades físicas (energias de ligação). As ligações químicas nos carbonetos de metais de transição (MeCs) podem ser descritas como uma mistura de ligações metálicas, ligações covalentes e iônicas [29].…”

Section: Figura 16 -Representação De Trincas Radiais Geradas Nos Cantunclassified

“…As ligações metálicas são devidas à interação dos elétrons do subnível eletrônico "d" entre átomos metálicos da vizinhança, enquanto que as interações entre os elétrons de C do subnível eletrônico "p" e os elétrons do subnível "d" do Metal (Me) formam ligações covalentes. A contribuição da ligação iônica é causada pela maior eletronegatividade dos átomos de C em comparação com os átomos de "Me", o que causa uma transferência de carga para o átomo de C [30]. Esta mistura nos tipos de ligações é responsável pela interessante combinação das propriedades vistas nos MeCs.…”

Section: Revisão Bibliográficaunclassified

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Obtenção e avaliação de recobrimentos nanométricos à base de nióbio depositados por processo PVD em aço AISI M2.

Jiménez¹,

Bernardo²

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Niobium carbide (NbC) coatings doped with Nickel (Ni) were deposited by reactive DC-magnetron sputtering using methane (CH4) as carbon (C) source. Reference NbC coating was deposited with a total power of 2500 W and NbxNiyCz coatings were deposited by decreasing the power applied to the Nb target and increasing the power applied to the Nb-Ni target, giving rise to coatings with increasing Ni content. Structural and microstructural characterizations of NbC and NbxNiyCz coatings were performed using X-ray diffraction (XRD), X-ray Photoelectron Spectroscopy (XPS), Raman Spectroscopy, Transmission Electron Microscopy (MET) and Scanning Electron Microscopy (MEV). Mechanical properties of the coatings were studied using the instrumented nanoindentation technique, in order to evaluate the Hardness (H) and Elastic modulus (E). The adhesion between coatings and substrate was evaluated using Rockwell C test and instrumented linear scratch tests. The tests for studying the thermal stability of the coatings were carried out in a controlled atmosphere chamber furnace at temperatures of 600 °C and 800 °C for 2h. Finally, the oxidation resistance of the coatings was studied by means of Thermogravimetric Analysis (TGA) tests of continuous and isothermal heating. The NbC and NbxNiyCz films in the as-deposited condition and annealed at 600 °C, showed good adhesion (failure mode HF1) to the AISI M2 steel substrate, indicating that the adhesion interlayer of the Cr, CrC and a gradient CrC/NbC layer was effective in avoiding adhesive failures. The increasing of Ni content in the structure of NbC coatings promoted the formation of nanocomposite structures, composed of a mixture of NbC and NiCx nanocrystallites. Additionally, the introduction of nickel allows increasing the hardness for the coatings in the as-deposited condition, from 17 to 25 GPa for Ni contents from 0 to 13 at. %, respectively, and, improving the oxidation resistance over the pure NbC coating, from 380 °C to 480 °C for the Ni-rich coatings. Finally, the thermal stability analyses showed that the NiCx precipitate decompose during the annealing treatments at 600 °C and 800 °C, which promoted an increase in the hardness and Young's modulus values for all coatings. These behaviors were attributed to the increase of crystallinity of the coatings.

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Section: Figura 16 -Representação De Trincas Radiais Geradas Nos Cantunclassified

Section: Revisão Bibliográficaunclassified

Obtenção e avaliação de recobrimentos nanométricos à base de nióbio depositados por processo PVD em aço AISI M2.

Jiménez¹,

Bernardo²

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Combustion synthesis of NbC/ZrO₂ composites: Influence of Cr additives on the microstructure and mechanical properties

Zaki

Al-qahtani

Alotaibi

et al. 2021

Int J Applied Ceramic Tech

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Composites of NbC/ZrO2 reinforced with different weight ratios of Cr metal were prepared by dynamic compaction combustion from a blend of Nb2O5–Zr–Cr powders. Factors controlling the synthesis process, the microstructure, and the mechanical properties of the samples, such as Cr wt% and the compression loads were studied. The samples were characterized by XRD, SEM, porosity, and hardness measurements. The porosity value of the sample with no additives was high and reached 31.6 vol%. A sudden decrease in the sample porosity to 2.4 vol % was noticed for the sample containing 3.0 wt% of Cr. A high‐density sample with less than 2.0 vol % porosity and maximum hardness of 1038 HV was produced using 5.0 wt% Cr under 300 MPa compression load. Detailed thermodynamic calculations for the effect of Cr additives on the physicochemical properties of the system were introduced.

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Carbides: Transition Metal Solid‐State ChemistryBased in part on the article Carbides: Transition Metal Solid State Chemistry by Peter Ettmayer & Walter Lengauer which appeared in the Encyclopedia of Inorganic Chemistry, First Edition .

Cited by 2 publications

References 37 publications

Obtenção e avaliação de recobrimentos nanométricos à base de nióbio depositados por processo PVD em aço AISI M2.

Obtenção e avaliação de recobrimentos nanométricos à base de nióbio depositados por processo PVD em aço AISI M2.

Combustion synthesis of NbC/ZrO₂ composites: Influence of Cr additives on the microstructure and mechanical properties

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Carbides: Transition Metal Solid‐State ChemistryBased in part on the article Carbides: Transition Metal Solid State Chemistry by Peter Ettmayer & Walter Lengauer which appeared in the Encyclopedia of Inorganic Chemistry, First Edition .

Cited by 2 publications

References 37 publications

Obtenção e avaliação de recobrimentos nanométricos à base de nióbio depositados por processo PVD em aço AISI M2.

Obtenção e avaliação de recobrimentos nanométricos à base de nióbio depositados por processo PVD em aço AISI M2.

Combustion synthesis of NbC/ZrO2 composites: Influence of Cr additives on the microstructure and mechanical properties

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Product

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Combustion synthesis of NbC/ZrO₂ composites: Influence of Cr additives on the microstructure and mechanical properties