Atomic ordering and hardness of nonstoichiometric titanium carbide

Lipatnikov, V. N.; Rempel, A. A.; Гусев, А. И.

doi:10.1016/s0263-4368(96)00020-0

Cited by 54 publications

(45 citation statements)

References 5 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…This small a 0 value cannot be entirely attributed to non-stoichiometry of TiC phase. In fact, according to Lipatnikov et al [12] and to E. M. Fryt [13], TiC y ( y 1) lattice parameter tends to decrease with y to approximately 4.315 Å for TiC 0.6 . The relatively small value of the lattice parameter of as-deposited TiC must therefore mainly be result from residual compressive stress in the film.…”

Section: Xrd Of Interlayers Before and After Diamond Depositionmentioning

confidence: 91%

Hot filament chemical vapour deposition and wear resistance of diamond films on WC-Co substrates coated using PVD-arc deposition technique

Polini

Mantini

Barletta

et al. 2006

Diamond and Related Materials

View full text Add to dashboard Cite

Section: Xrd Of Interlayers Before and After Diamond Depositionmentioning

confidence: 91%

Hot filament chemical vapour deposition and wear resistance of diamond films on WC-Co substrates coated using PVD-arc deposition technique

Polini

Mantini

Barletta

et al. 2006

Diamond and Related Materials

View full text Add to dashboard Cite

“…The trigonal ordered phase was formed below 770 • C, while the cubic ordered phase was observed at higher temperatures. Lipatnikov et al 12 have reported that TiC 0.6 can form a disordered phase. In addition, they reported the presence of Ti 2 C with an ordered trigonal or cubic symmetry and another ordered Ti 3 C 2 phase with orthorhombic symmetry.…”

Section: Ti-c Equilibrium Phase Diagram and Crystal Structure Of Titamentioning

confidence: 99%

TiC–TiB2 composites: A review of phase relationships, processing and properties

Vallauri

Adrian

Chrysanthou

2008

Journal of the European Ceramic Society

371

130

View full text Add to dashboard Cite

“…For the latter, hardness did indeed exhibit a slight correlation with stoichiometry, and declined by roughly 15-20% while decreasing the C/Ti ratio to ~0.5. However, these values are still higher than the TiB values described by Lipatnikov et al and Sundgren et al [46,47]. The decrease in measured hardness of the composite TMC-C could be explained by the generally lower total content of particle reinforcement of only 10 vol.-%.…”

Section: Structural Characterizationmentioning

confidence: 61%

Characterization of In-Situ TiB/TiC Particle-Reinforced Ti-5Al-5Mo-5V-3Cr Matrix Composites Synthesized by Solid-State Reaction with B4C and Graphite through SPS

Grützner

Krüger

Radajewski

et al. 2018

Metals

View full text Add to dashboard Cite

Abstract:In-situ TiB/TiC particle-reinforced titanium matrix composites (TMCs) based on a near-β Ti-5Al-5Mo-5V-3Cr alloy (Ti-5553) were synthesized by solid-state reaction with B 4 C and graphite particles during spark plasma sintering (SPS). In this study, investigations were focused on the influence of the molar TiB:TiC ratio on the mechanical properties of the composites. With respect to the adjustment of the molar TiB:TiC ratio, the formation of stoichiometric TiC or nonstoichiometric TiC y was considered as the literature provides conflicting information in this respect. Furthermore, the solid-state reaction behavior influenced by the matrix alloying elements is discussed in comparison to a pure titanium matrix. The hardness, compressive strength and bending strength of the TMCs were improved successfully due to the TiB and TiC particles maintaining acceptable levels of ductility. However, X-ray diffraction experiments revealed that for the adjustment of the molar TiB:TiC ratio, the stoichiometry of the TiC y particles formed must be considered as nonstoichiometric TiC 0.5 resulted from the solid-state reaction of carbon and titanium. Compared to TMCs with pure titanium matrices, more sluggish solid-state reaction kinetics were observed. This was attributed to the matrix alloying elements molybdenum, vanadium and chromium, which formed solid solutions within the reinforcing particles.

show abstract

Atomic ordering and hardness of nonstoichiometric titanium carbide

Cited by 54 publications

References 5 publications

Hot filament chemical vapour deposition and wear resistance of diamond films on WC-Co substrates coated using PVD-arc deposition technique

Hot filament chemical vapour deposition and wear resistance of diamond films on WC-Co substrates coated using PVD-arc deposition technique

TiC–TiB2 composites: A review of phase relationships, processing and properties

Characterization of In-Situ TiB/TiC Particle-Reinforced Ti-5Al-5Mo-5V-3Cr Matrix Composites Synthesized by Solid-State Reaction with B4C and Graphite through SPS

Contact Info

Product

Resources

About