Melts interaction of the Cu-Zr-X (X = Nico, Hf) with refractory materials
Saved in:
| Date: | 2016 |
|---|---|
| Main Authors: | , , , |
| Format: | Article |
| Language: | English |
| Published: |
2016
|
| Series: | Casting processes |
| Online Access: | http://jnas.nbuv.gov.ua/article/UJRN-0001031578 |
| 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
Interaction of Cu, Zn, Mn and its alloys with refractory materials
by: D. S. Kanibolotskij, et al.
Published: (2015)
by: D. S. Kanibolotskij, et al.
Published: (2015)
Bзаимодействие расплавов системы Cu-Zr-X (X = Ni, Co, Hf) с огнеупорными материалами
by: Верховлюк, А.М., et al.
Published: (2016)
by: Верховлюк, А.М., et al.
Published: (2016)
Clusters as structural components of metal melts
by: V. L. Najdek, et al.
Published: (2015)
by: V. L. Najdek, et al.
Published: (2015)
Ellipsometric studies of (Cu₆PS₅Br)₁₋ₓ(Cu₇PS₆)ₓ and (Cu₆PS₅Br)₁₋ₓ(Cu₇PS₆)ₓ mixed crystals
by: Studenyak, I.P., et al.
Published: (2019)
by: Studenyak, I.P., et al.
Published: (2019)
Optimization of parameters of the new thermoelectric material HfNiSn1–xSbx
by: V. A. Romaka, et al.
Published: (2014)
by: V. A. Romaka, et al.
Published: (2014)
Synthesis and electrophysical properties of nanostructured composites NiCo/BaTiO3 and NiCo/TiO2
by: S. M. Makhno, et al.
Published: (2023)
by: S. M. Makhno, et al.
Published: (2023)
Research on the ZR1-xVx NiSn thermoelectric material
by: V. A. Romaka, et al.
Published: (2018)
by: V. A. Romaka, et al.
Published: (2018)
Research on the ZR1-xVx NiSn thermoelectric material
by: V. A. Romaka, et al.
Published: (2018)
by: V. A. Romaka, et al.
Published: (2018)
X-ray spectra and peculiarities of the electronic-energy structure of ZrTiO4 and HfTiO4 oxides
by: A. A. Lavrentev, et al.
Published: (2012)
by: A. A. Lavrentev, et al.
Published: (2012)
Electrophysical properties of carbon nanotubes/NiCo composites
by: O. M. Lisova, et al.
Published: (2018)
by: O. M. Lisova, et al.
Published: (2018)
Електрофізичні властивості композитів вуглецеві нанотрубки/ NiCo
by: Lisova, O. M., et al.
Published: (2018)
by: Lisova, O. M., et al.
Published: (2018)
Features of defect formation and electroconductivity mechanisms in HfNi1–xCoxSn thermoelectric material
by: V. A. Romaka, et al.
Published: (2012)
by: V. A. Romaka, et al.
Published: (2012)
Anisotropy of the critical curremt due to twin planes and vortex melting in YBa₂Cu₃O₇₋x single crystals
by: Obolenskii, M.A., et al.
Published: (1996)
by: Obolenskii, M.A., et al.
Published: (1996)
Kinetic of ZrO2- and HfO2-ceramic destoimetrization at contact to active metal melts
by: A. V. Durov, et al.
Published: (2019)
by: A. V. Durov, et al.
Published: (2019)
Кристалічна структура фаз серій Y1+x(Cu,Ga)4−x та Y3+x(Cu,Ga)11−x
by: Білявина, Н.М., et al.
Published: (2011)
by: Білявина, Н.М., et al.
Published: (2011)
Structure and Raman spectra of (Cu₆PS₅I)₁₋ₓ(Cu₇PS₆)ₓ mixed crystals
by: Studenyak, I.P., et al.
Published: (2017)
by: Studenyak, I.P., et al.
Published: (2017)
Electroslag melting of chromium bronze BrX
by: A. V. Gnatushenko, et al.
Published: (2012)
by: A. V. Gnatushenko, et al.
Published: (2012)
Electrical conductivity mechanisms of ZrNi1-xRhxSn thermoelectric material
by: V. A. Romaka, et al.
Published: (2017)
by: V. A. Romaka, et al.
Published: (2017)
Electrical conductivity mechanisms of ZrNi1-xRhxSn thermoelectric material
by: V. A. Romaka, et al.
Published: (2017)
by: V. A. Romaka, et al.
Published: (2017)
Ellipsometric studies of (Cu6PS5I)1-x(Cu7PS6)x and (Cu6PS5Br)1-x(Cu7PS6)x mixed crystals
by: I. P. Studenyak, et al.
Published: (2019)
by: I. P. Studenyak, et al.
Published: (2019)
Mechanism of defect formation in Zr1 – xVxNiSn thermoelectric material
by: V. V. Romaka, et al.
Published: (2021)
by: V. V. Romaka, et al.
Published: (2021)
Mechanism of defect formation in Zr1 – xVxNiSn thermoelectric material
by: V. V. Romaka, et al.
Published: (2021)
by: V. V. Romaka, et al.
Published: (2021)
Features of electrical conductivity mechanisms of ZrNi1-xRhxSn thermoelectric material
by: V. A. Romaka, et al.
Published: (2017)
by: V. A. Romaka, et al.
Published: (2017)
Features of electrical conductivity mechanisms of ZrNi1-xRhxSn thermoelectric material
by: V. A. Romaka, et al.
Published: (2017)
by: V. A. Romaka, et al.
Published: (2017)
Preparation and electrical properties of composites based on (Cu₆PS₅I)₁₋ₓ(Cu₇PS₆)ₓ mixed crystals
by: Izai, V.Yu., et al.
Published: (2019)
by: Izai, V.Yu., et al.
Published: (2019)
Absorption spectra peculiarities of thin films of (CsCu₂Cl₃)₁₋ₓ(CsCu₂l₃)ₓ system.
by: Yunakova, O.N., et al.
Published: (2004)
by: Yunakova, O.N., et al.
Published: (2004)
Fiatures of the electron structure and conduction mechanisms in the Zr1-xCexNiSn thermoelectric material
by: V. A. Romaka, et al.
Published: (2014)
by: V. A. Romaka, et al.
Published: (2014)
Structure and mechanical properties of the refractory multicomponent alloys of the Ta-Ti-V-Zr-Al system
by: Levenets, A., et al.
Published: (2022)
by: Levenets, A., et al.
Published: (2022)
Электросопротивление и магнитные свойства керамик двойного допирования La₁,₈₅-₄/₃xSr₀,₁₅+₄/₃xCu₁₋xMnxO₄
by: Ткач, А.В., et al.
Published: (2007)
by: Ткач, А.В., et al.
Published: (2007)
On the nature of photoinduced absorption in photochromic (AgCl)ₓ(CuCl)₁₋ₓ films
by: Yunakova, O.N., et al.
Published: (2005)
by: Yunakova, O.N., et al.
Published: (2005)
Density and surface tension of Sn1–xBix melts
by: R. Bilyk, et al.
Published: (2020)
by: R. Bilyk, et al.
Published: (2020)
Density and surface tension of Sn1–xBix melts
by: R. Bilyk, et al.
Published: (2020)
by: R. Bilyk, et al.
Published: (2020)
The mixed-state Hall conductivity of single-crystal films Nd₂–xCexCuO₄₊δ (x = 0.14)
by: Shelushinina, N.G., et al.
Published: (2017)
by: Shelushinina, N.G., et al.
Published: (2017)
Halogenide refractory reusable crucibles for melting, isothermal homogenization and high-temperature synthesis of chemically aggressive alloys on base of Ti, Zr, Nb, V
by: V. P. Krasovskyi, et al.
Published: (2016)
by: V. P. Krasovskyi, et al.
Published: (2016)
Фазовые превращения в интерметаллических соединениях Zr50Co50−xNix (0<x<50)
by: Косорукова, Т.А., et al.
Published: (2012)
by: Косорукова, Т.А., et al.
Published: (2012)
Structure and Raman spectra of (Cu6PS5I)1–x(Cu7PS6)x mixed crystals
by: I. P. Studenyak, et al.
Published: (2017)
by: I. P. Studenyak, et al.
Published: (2017)
Controller of viscosity melts agglomerated welding flux by based formation refractory of compounds
by: I. A. Goncharov, et al.
Published: (2013)
by: I. A. Goncharov, et al.
Published: (2013)
Estimating the sizes of refractory particles introduced into the melt, capable to become crystallization centers
by: A. I. Trotsan, et al.
Published: (2010)
by: A. I. Trotsan, et al.
Published: (2010)
The mixed-state Hall conductivity of single-crystal films Nd2–xCexCuO4+δ (x = 0.14)
by: N. G. Shelushinina, et al.
Published: (2017)
by: N. G. Shelushinina, et al.
Published: (2017)
Dynamical behavior of rational difference equation $x_{n+1}=\dfrac{x_{n-13}}{\pm1\pm x_{n-1}x_{n-3}x_{n-5}x_{n-7}x_{n-9} x_{n-11}x_{n-13}}$
by: Şimşek, D., et al.
Published: (2024)
by: Şimşek, D., et al.
Published: (2024)