Dense Ti3AlC2 based materials obtained by SHS-extrusion and compression methods

Pazniak, Hanna; Бажин, П. М.; Щетинин, И. В.; Kolesnikov, Еvgeny; Prokopets, A. D.; Shplis, N. V.; Столин, А. М.; Кузнецов, Денис

doi:10.1016/j.ceramint.2018.10.101

Cited by 34 publications

(5 citation statements)

References 33 publications

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“…Subsequently, methods were developed for direct production of products in one technological stage as a result of a combination of the SHS process and subsequent high-temperature shear deformation of the synthesis products, namely SHS extrusion [23] and free SHS compression [24,25]. The use of these methods avoids the need for external heating and long holding by using the internal energy released during the chemical reaction.…”

Section: Introductionmentioning

confidence: 99%

Production of Ceramic Plates Based on Al2O3–TiB2 by Free SHS Compression

Чижиков

Konstantinov

2021

Refract Ind Ceram

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Ceramic plates with dimensions of 90 ´40 ´7 mm and a density of 3.41 g/cm 3 were obtained by the method of free SHS-compression. The resulting plates consist of three phases: aluminum oxide, titanium diboride, and mullite. The plates have a composite structure: a matrix based on Al 2 O 3 with titanium diboride particles distributed in it. Also, in the structure of the obtained plates, whiskers of titanium monoboride with a thickness of about 100 nm were observed. The results of high-temperature tests of plates in the range of 900 -1200°C for 10 hr are presented, the dependences of the true rate of weight gain and specific weight gain of samples during the tests are obtained.

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Section: Introductionmentioning

confidence: 99%

Production of Ceramic Plates Based on Al2O3–TiB2 by Free SHS Compression

Чижиков

Konstantinov

2021

Refract Ind Ceram

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“…[1][2][3][4][5][6][7][8][9][10] In addition, M n+1 AX n phases also exhibit good radiation resistance, [11] especially at high temperatures, [12][13][14][15] and are considered as a potential structural material for nuclear fission and fusion reactors. [16][17][18] In the M n+1 AX n phases, many materials have been studied, such as Ti 2 AlC, [19,20] Ti 3 AlC 2 [21,22] and Ti 3 SiC 2 [23,24] compounds.…”

Section: Introductionmentioning

confidence: 99%

Structural, mechanical, electronic properties, and Debye temperature of quaternary carbide Ti₃NiAl₂C ceramics under high pressure: A first-principles study*

Jiang¹,

Xiao²,

Liu³

2021

Chinese Phys. B

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Quaternary carbide Ti3NiAl2C ceramics has been investigated as a potential nuclear fusion structural material, and it has advantages in certain aspects compared with Ti2AlC, Ti3AlC2, and Ti3SiC2 structural materials. In this paper, quaternary carbide Ti3NiAl2C ceramics is pressurized to investigate its structural, mechanical, electronic properties, and Debye temperature. Quaternary carbide Ti3NiAl2C ceramics still maintains a cubic structure under pressure (0–110 GPa). At zero pressure, quaternary carbide Ti3NiAl2C ceramics only has three bonds: Ti–Al, Ni–Al, and Ti–C. However, at pressures of 20 GPa, 30 GPa, 40 GPa, 60 GPa, and 70 GPa, new Ti–Ni, Ti–Ti, Al–Al, Ti–Al, and Ti–Ti bonds form. When the pressure reaches 20 GPa, the covalent bonds change to metallic bonds. The volume of quaternary carbide Ti3NiAl2C ceramics can be compressed to 72% of its original volume at most. Pressurization can improve the mechanical strength and ductility of quaternary carbide Ti3NiAl2C ceramics. At 50–60 GPa, its mechanical strength can be comparable to pure tungsten, and the material changes from brittleness to ductility. However, the degree of anisotropy of quaternary carbide Ti3NiAl2C ceramics increases with the increasing pressure. In addition, we also investigated the Debye temperature, density, melting point, hardness, and wear resistance of quaternary carbide Ti3NiAl2C ceramics under pressure.

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“…In these NiAlbased composites, the ceramics particles used as lubricant additives can obviously improve the hightemperature wear resistance. Ti 3 AlC 2 as a member of MAX phase ceramics exhibits the properties of metal and ceramics, such as the thermal conductivity, thermal shock resistance and machinability of similar metals, and wear resistance, selflubrication, and high-temperature resistance of similar ceramics [17][18][19]. Some earlier reports indicated that the mechanical properties of metal-based composites and ceramics could be significantly enhanced by adding Ti 3 AlC 2 due to its considerable grain refinement and second-phase reinforcement [20][21][22].…”

Section: Introductionmentioning

confidence: 99%

Preparation and high-temperature wear behavior of NiAl-Ti₃AlC₂ fabricated by thermal explosion

Yuan

Wang

Liu

et al. 2020

Mater. Res. Express

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AbstractsIn this paper, a novel NiAl-based composite reinforced with different content Ti 3 AlC 2 particles was fabricated by thermal explosion using Ni, Al, and Ti 3 AlC 2 powders as starting materials. The microstructure and high-temperature wear behavior of NiAl-Ti 3 AlC 2 composites at 600°C were investigated. The result showed that increasing Ti 3 AlC 2 content (lower than 15 wt%) could improve the fracture toughness of NiAl-Ti 3 AlC 2 , but for the composites with 20 wt%Ti 3 AlC 2 content, the fracture toughness decreased due to low relative density. Wear mechanism of composites was related to the Ti 3 AlC 2 content, the composite with a lower content exhibits oxidation wear, and higher content composite demonstrated both oxidation wear and abrasive wear.

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Dense Ti3AlC2 based materials obtained by SHS-extrusion and compression methods

Cited by 34 publications

References 33 publications

Production of Ceramic Plates Based on Al2O3–TiB2 by Free SHS Compression

Production of Ceramic Plates Based on Al2O3–TiB2 by Free SHS Compression

Structural, mechanical, electronic properties, and Debye temperature of quaternary carbide Ti₃NiAl₂C ceramics under high pressure: A first-principles study*

Preparation and high-temperature wear behavior of NiAl-Ti₃AlC₂ fabricated by thermal explosion

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Dense Ti3AlC2 based materials obtained by SHS-extrusion and compression methods

Cited by 34 publications

References 33 publications

Production of Ceramic Plates Based on Al2O3–TiB2 by Free SHS Compression

Production of Ceramic Plates Based on Al2O3–TiB2 by Free SHS Compression

Structural, mechanical, electronic properties, and Debye temperature of quaternary carbide Ti3NiAl2C ceramics under high pressure: A first-principles study*

Preparation and high-temperature wear behavior of NiAl-Ti3AlC2 fabricated by thermal explosion

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Structural, mechanical, electronic properties, and Debye temperature of quaternary carbide Ti₃NiAl₂C ceramics under high pressure: A first-principles study*

Preparation and high-temperature wear behavior of NiAl-Ti₃AlC₂ fabricated by thermal explosion