High temperature oxidation resistance of materials based on MAKh-phases of Ti—Al—(C, N) system
Saved in:
| Date: | 2013 |
|---|---|
| Main Authors: | , , , , , , , , , , |
| Format: | Article |
| Language: | English |
| Published: |
2013
|
| Series: | Modern Problems in Physical Materials Science |
| Online Access: | http://jnas.nbuv.gov.ua/article/UJRN-0000564264 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Journal Title: | Library portal of National Academy of Sciences of Ukraine | LibNAS |
Institution
Library portal of National Academy of Sciences of Ukraine | LibNASSimilar Items
Research of damping properties of materials on the base of MAKh phase of Ti3AlC2
by: A. V. Starosstina, et al.
Published: (2011)
by: A. V. Starosstina, et al.
Published: (2011)
Studies of the oxidation stability, mechanical characteristics of materials based on MAX Phases of the Ti–AL–(C, N) systems, and of the possibility of their use as tool bonds and materials for polishing
by: T. A. Prikhna, et al.
Published: (2014)
by: T. A. Prikhna, et al.
Published: (2014)
Mechanical properties of materials based on MAX phases of the Ti–Al–C system
by: T. A. Prikhna, et al.
Published: (2012)
by: T. A. Prikhna, et al.
Published: (2012)
The influence of technology of obtaining composites based on titanium MAKh-phases on wear under contact with copper. Part I. Two-step technology
by: T. O. Prikhna, et al.
Published: (2018)
by: T. O. Prikhna, et al.
Published: (2018)
Makh phase (mxene) in polymer materials
by: K. O. Ivanenko, et al.
Published: (2022)
by: K. O. Ivanenko, et al.
Published: (2022)
Thermal and crack resistance of ceramics based on the MAX phase Ti₃AlC₂
by: Boyko, Yu.I., et al.
Published: (2018)
by: Boyko, Yu.I., et al.
Published: (2018)
Investigation of heat resistance of plasma coatings from TiAl intermetallic with application of parametric oxidation diagram
by: Yu. S. Borysov, et al.
Published: (2022)
by: Yu. S. Borysov, et al.
Published: (2022)
Thermodynamic calculation of the phase diagram for the Al–B–C system at pressure 7.7 GPa
by: V. Z. Turkevich, et al.
Published: (2016)
by: V. Z. Turkevich, et al.
Published: (2016)
Oxidation behavior and electrochemical corrosion performance of Ti₃Al alloy with TiAl coating
by: Yanjun Xi, et al.
Published: (2010)
by: Yanjun Xi, et al.
Published: (2010)
Creep and viscoelasticity of Ti3AlC2 MAX-phase at room temperature
by: S. M. Dub, et al.
Published: (2020)
by: S. M. Dub, et al.
Published: (2020)
The influence of solidification rate on the formation quasicrystalline phase in of Ti – Cr – Al – Si alloys
by: M. O. Krapivka, et al.
Published: (2017)
by: M. O. Krapivka, et al.
Published: (2017)
Calculation of the γ-TiAl Lattice Resistance
by: Feng, R.C., et al.
Published: (2019)
by: Feng, R.C., et al.
Published: (2019)
Processing and oxygenation of YBaCuO melted textured ceramics at high and enhanced pressures and temperatures
by: T. A. Prikhna, et al.
Published: (2012)
by: T. A. Prikhna, et al.
Published: (2012)
cBN based materials with TiN-Al binder phase: sintering, structure, properties
by: K. V. Slipchenko, et al.
Published: (2019)
by: K. V. Slipchenko, et al.
Published: (2019)
The influence of technological conditions of obtaining composite materials based on AlN–Y2O3–C on their ability to absorb microwave radiation
by: T. B. Serbeniuk, et al.
Published: (2020)
by: T. B. Serbeniuk, et al.
Published: (2020)
The electrical and thermal conductivity of the MAX phase of Ti3AlC2 at low temperatures
by: Ja. Khadzhaj, et al.
Published: (2018)
by: Ja. Khadzhaj, et al.
Published: (2018)
Structure of γ-TiAl joints in resistance butt welding with application of interlayers
by: S. I. Kuchuk-Jatsenko, et al.
Published: (2015)
by: S. I. Kuchuk-Jatsenko, et al.
Published: (2015)
Formation regularities of structures of AlN–SiC_based ceramic materials
by: T. O. Prikhna, et al.
Published: (2015)
by: T. O. Prikhna, et al.
Published: (2015)
Effect of the additive of Y2O3 on the structure formation and properties of composite materials based on AlN–SiC
by: T. B. Serbeniuk, et al.
Published: (2018)
by: T. B. Serbeniuk, et al.
Published: (2018)
Creep of the Ti₃AlC₂ MAX-phase ceramics
by: Boyko, Yu.I., et al.
Published: (2019)
by: Boyko, Yu.I., et al.
Published: (2019)
Light interconnects for medium-temperature (550...650S) solid oxide fuel cells
by: O. P. Ostash, et al.
Published: (2021)
by: O. P. Ostash, et al.
Published: (2021)
Structure and mechanical properties of multilayer vacuum-arc condensates of Ti/Al and Ti/TiAlSi systems
by: A. V. Demchishin, et al.
Published: (2016)
by: A. V. Demchishin, et al.
Published: (2016)
Structure and properties of coatings of Ti, Ti36Al, Ti/Al, produced by the method of vacuum arc evaporation
by: A. V. Demchishin, et al.
Published: (2009)
by: A. V. Demchishin, et al.
Published: (2009)
Electron beam melting of heat-resistant titanium composites of Ti-Si–Al–Zr–Sn system
by: S. V. Akhonin, et al.
Published: (2019)
by: S. V. Akhonin, et al.
Published: (2019)
Structure and properties of hot-pressed materials based on AlB12C2
by: T. A. Prikhna, et al.
Published: (2017)
by: T. A. Prikhna, et al.
Published: (2017)
Resistance butt welding of titanium aluminide g-TiAl with VT5 alloy
by: S. I. Kuchuk-Jatsenko, et al.
Published: (2018)
by: S. I. Kuchuk-Jatsenko, et al.
Published: (2018)
Structure and properties of Mg, Al, Ti oxide and nitride layers formed by ion-plasma sputtering
by: Pidkova, V., et al.
Published: (2014-12-12)
by: Pidkova, V., et al.
Published: (2014-12-12)
Wear resistance of Fe-Cr–Mn–Ti–Al coatings sprayed by powder wires
by: L. I. Bohun, et al.
Published: (2019)
by: L. I. Bohun, et al.
Published: (2019)
Participation of nitric oxide in induction of heat resistance of wheat seedlings by putrescine
by: O. I. Kokorev, et al.
Published: (2020)
by: O. I. Kokorev, et al.
Published: (2020)
Influence of temperature of heating in vacuum on behaviour of oxide film on the surface of γ-TiAl intermetallic alloy
by: Ju. V. Falchenko, et al.
Published: (2017)
by: Ju. V. Falchenko, et al.
Published: (2017)
Influence of changes of calcium homeostasis on nitric oxide content in roots of wheat seedlings and their heat resistance
by: Ju. V. Karpets, et al.
Published: (2015)
by: Ju. V. Karpets, et al.
Published: (2015)
Possible pathways of heat resistance induction in plant cells by exogenous nitrogen oxide
by: Ju. V. Karpets, et al.
Published: (2012)
by: Ju. V. Karpets, et al.
Published: (2012)
Hydrogen interaction with Ti–Al–V–Fe, Al–V–Fe and Ti–Al–Mo–Fe master alloy powders
by: O. M. Ivasyshyn, et al.
Published: (2018)
by: O. M. Ivasyshyn, et al.
Published: (2018)
Creep resistance of Ti–Al–Si–X titanium alloys under short-term bending tests
by: D. H. Verbylo, et al.
Published: (2021)
by: D. H. Verbylo, et al.
Published: (2021)
Investigation of surface resistance OF Al, Be AND Al-Be alloy at low temperatures
by: Azhazha, V.M., et al.
Published: (2000)
by: Azhazha, V.M., et al.
Published: (2000)
Structure and properties of superhard materials based on aluminum dodecaboride α–AlB12
by: T. A. Prikhna, et al.
Published: (2017)
by: T. A. Prikhna, et al.
Published: (2017)
The effect of size of the SiC inclusions in the AlN–SiC composite structure on its electrophysical properties
by: T. B. Serbeniuk, et al.
Published: (2016)
by: T. B. Serbeniuk, et al.
Published: (2016)
Properties of alloys on titanium aluminide γ-TiAl/α2-Ti3Al base at complex alloying
by: S. A. Firstov, et al.
Published: (2018)
by: S. A. Firstov, et al.
Published: (2018)
Structural features and wear resistance of the TiAlN coating formed on the Ti–6Al–4V alloy by combining electric arc spraying and gas nitriding methods
by: O. V. Tkachuk, et al.
Published: (2024)
by: O. V. Tkachuk, et al.
Published: (2024)
Cavitation resistance of TiN coatings
by: A. D. Pogrebnjak, et al.
Published: (2011)
by: A. D. Pogrebnjak, et al.
Published: (2011)