Synthesis of Titanium Carbide by Means of Pressureless Sintering

Abstract: In this study, titanium carbide was obtained by low-temperature pressureless (at pressure less than 1 MPa) sintering of a mixture of elementary titanium and graphite powders in a hot-pressing plant with a preliminary mechanical treatment of the initial mixture. The sintering was carried out at temperatures of 900 and 1000 °C in argon media. As a result, cubic modification (Fm3m) of titanium carbide was obtained. The content of impurities was about 12–13 wt.%

“…To determine the composition of the remaining products in the MPL after the vacuum high-temperature sintering of PTL-MPL1-S, a simple qualitative analysis with XRD was conducted, in combination with consulting the relevant literature. − For ease of comparison, commercial carbon powder (XC-72R) and PTL-R (pure titanium felt without MPL) were also analyzed by XRD. The results of XRD pattern analysis are shown in Figure , with labels indicating the component represented by each peak.…”

Porous Transport Layers with TiC-Coated Microporous Layers for Proton Exchange Membrane Water Electrolysis

“…To determine the composition of the remaining products in the MPL after the vacuum high-temperature sintering of PTL-MPL1-S, a simple qualitative analysis with XRD was conducted, in combination with consulting the relevant literature. − For ease of comparison, commercial carbon powder (XC-72R) and PTL-R (pure titanium felt without MPL) were also analyzed by XRD. The results of XRD pattern analysis are shown in Figure , with labels indicating the component represented by each peak.…”

Porous Transport Layers with TiC-Coated Microporous Layers for Proton Exchange Membrane Water Electrolysis

“…Other methods of TiC production, which require a high energy input, are carbothermal reduction of TiO 2 [84][85][86], the plasma method [87], synthesis from elements [88], the self-propagating high-temperature method [89], chemical vapor deposition [90], and the magnesiothermic method [91,92]. The simplest, relatively inexpensive, most common, and most commercially used method is carbothermal reduction.…”

“…However, this method is highly exothermic and therefore requires a low temperature. Additionally, synthesis from elements is characterized by high efficiency [88]. Therefore, as with tungsten carbide, the ball milling method, the precursor method, and molten salt synthesis are used to reduce the temperatures needed to synthesize TiC.…”

Metal (Mo, W, Ti) Carbide Catalysts: Synthesis and Application as Alternative Catalysts for Dry Reforming of Hydrocarbons—A Review

“…Mechanical milling of powder mixtures can assist the SPS processing of metal-ceramic composites by facilitating mixing of the reactants, shortening the diffusion distances, generating new crystallite/grain boundaries, and refining the structure of the final product [18]. For example, in the binary Ti-C high-energy milled powder mixture of the stoichiometric composition, TiC with crystallites about 100 nm in size was obtained after heating the mixture up to 900-1000 • C and holding it for 30 min at the maximum temperature [19]. When TiC is synthesized in a mixture not subjected to high-energy milling, the size of TiC crystals is of the order of several micrometers [20].…”

Synthesis of Ceramic Reinforcements in Metallic Matrices during Spark Plasma Sintering: Consideration of Reactant/Matrix Mutual Chemistry