Properties of Ti3AlC2

Structure, Phase Composition, and Properties of Ti3AlC2—Nano-Cu Powder Composites Composites based on the MAX-phases are promising materials for various applications. Composites MAX-phase–copper can be used in electrical engineering as wear-resistant and durable sliding contact material. Such composites can be used as coatings on sliding contacts to improve local strength and wear resistance without significantly increasing production costs. In this work, Ti3AlC2—nano-Cu composites with the rati

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High purity titanium aluminum carbide powders

High-purity titanium aluminum carbide (Ti3AlC2) powders were synthesized by a microwave sintering method using different titanium sources as raw materials. The prepared products were characterized by differential scanning calorimetry (DSC), X-ray diffraction (XRD), scanning electron microscopy (SEM), and transmission electron microscopy (TEM). The results indicated that the synthesized Ti3AlC2 powders have high purity (97.5%) and even distribution of the grain size when using a 3TiH2/1.2Al/2C mi

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High efficiency and relatively low-temperature process for preparation of nanosized Ti3AlC2 powder

What is Ti3AlC2?High-purity titanium aluminum carbide (Ti3AlC2) powders were synthesized by a microwave sintering method using different titanium sources as raw materials. The prepared products were characterized by differential scanning calorimetry (DSC), X-ray diffraction (XRD), scanning electron microscopy (SEM), and transmission electron microscopy (TEM). The results indicated that the synthesized Ti3AlC2 powders have high purity (97.5%) and even distribution of the grain size when using a 3

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Ti3AlC2 ternary compound with a layered structure in hexagonal crystalline system

Titanium Aluminum Carbide MAX Phase Micron-Powder. Chemical Name: Titanium Aluminum Carbide. Titanium aluminum carbide belongs to the hexagonal crystal system and: it has the same conductivity or heat conduction as metal but has the same high elastic modulus and excellent high temperature mechanical properties as ceramic with good conductivity Ti₃AlC₂ is MAX Phase-like structured and crystallizes in the hexagonal P6₃/mmc space group. There are two inequivalent Ti sites. Ti is bonded in a 3-coord

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What is Ti3AlC2

Titanium Aluminum Carbide MAX Phase Micron-Powder. Chemical Name: Titanium Aluminum Carbide. Titanium aluminum carbide belongs to the hexagonal crystal system and: it has the same conductivity or heat conduction as metal but has the same high elastic modulus and excellent high temperature mechanical properties as ceramic with good conductivity Ti₃AlC₂ is MAX Phase-like structured and crystallizes in the hexagonal P6₃/mmc space group. There are two inequivalent Ti sites. Ti is bonded in a 3-coord

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Ti3AlC2 ternary compound with a layered structure in the hexagonal crystalline system

What is Ti3AlC2?Titanium Aluminum Carbide MAX Phase Micron-Powder. Chemical Name: Titanium Aluminum Carbide. Titanium aluminum carbide belongs to the hexagonal crystal system and: it has the same conductivity or heat conduction as metal but has the same high elastic modulus and excellent high temperature mechanical properties as ceramic with good conductivity Ti₃AlC₂ is MAX Phase-like structured and crystallizes in the hexagonal P6₃/mmc space group. There are two inequivalent Ti sites. Ti is bon

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High Purity Titanium aluminum carbide Ti3AlC2 Max,99.9%

Scientists and physicists have been attracted to the unique properties of this new ceramic ternary material.Particle size: 5- 10 microns Purity: 99% The Titanium Aluminum Carbide Ti3AlC2 Maximum: A new ceramic material, titanium-aluminum carbide, has a ternary structure. It has unique characteristics and has drawn the attention of many materials scientists and physical physicists. Titanium aluminum carbide (Ti3AlC2) is a hexagonal crystalline system with the properties of both metals and c

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Effect of Al molar ratio on formation of Ti3AlC2

Due to TiC as an impurity phase existing in the final products, as shown in sections 3.2 and 3.3, it is also reported that Al may be deficient due to its evaporation by the synthesis of the traditional methods. Hence, increasing the Al content in the starting powder may compensate for the Al loss due to the high-temperature evaporation. Therefore, four sets of the starting elemental powders according to the Ti:Al: C molar ratios of 3:0.9:2, 3:1:2, 3:1.1:2, and 3:1.2:2 were well mixed with the dr

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Microstructure oxidation resistance relationship in Ti3AlC2 MAX Phase

Spark Plasma Sintering and Hot Isostatic Pressing were used to synthesize coarse-grained and fine-grained Ti3AlC2 specimens. Moreover, Spark Plasma Sintering processing parameters were modified to vary the TiC, Al2O3, and TixAly impurity and porosity in the fine-grained samples. The influence of the Ti3AlC2 microstructure on the oxidation resistance was assessed. It is demonstrated that the grain size can drastically modify the oxidation resistance. The higher density of grain boundaries in fine

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Synthesized the Ti3AlC2 MAX phase

We synthesized the Ti3AlC2 MAX phase by a ceramic synthesis route and confirmed its structure by X-ray diffraction (see the Supporting Information for full experimental details). It consists of a c-axis stacking sequence where two layers of edge-sharing CTi6 octahedra are sandwiched between planar layers of Al. The butane ODH study with Ti3AlC2 was carried out at different temperatures, varying the O2:butane ratio from 0.25:1 up to 1:1. The product mixture contained 1-butene, 2-butene, butadiene

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The Ti3AlC2 MAX Phase as an Efficient Catalyst

Ti3AlC2, the first MAX phase to be used in heterogeneous catalysis, efficiently catalyzes the oxidative dehydrogenation (ODH) of n-butane to butenes and butadiene, owing to its defective structure and non-stoichiometric oxide layer on the surface. Dehydrogenation or oxidative dehydrogenation (ODH) of alkanes to produce alkenes directly from natural gas/shale gas is gaining importance. Ti3AlC2, a MAX phase that had not been used in catalysis, efficiently catalyzes the ODH of n-butane to butenes a

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Characterization of the prepared Ti3AlC2

The typical FE-SEM microstructure of Ti3AlC2 powder obtained from 3Ti/Al/2C starting elemental powders in NaCl‒KCl molten salt at 1000 °C for two h and the corresponding XRD pattern. Pproducts are composed of homogeneous particles with a particle size of ˜100 nm. An energy-dispersive X-ray spectroscopy (EDS) spectrum illustrates that only Ti, Al, and C elements are detected, further suggesting that the Ti3AlC2 compound is synthesized. In addition, the elemental mapping analysis of Ti3AlC2 nanopa

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