А. Б. Шубин scite author profile

Thermal decomposition of copper digallide was studied using experimental (thermal analysis) and theoretical (thermodynamic modeling) methods. The temperatures of CuGa2incongruent melting are in satisfactory agreement between experimental and calculated values. Small differences with the phase diagram can be explained by minor non-stoichiometry of the alloy samples. The experimental studies of thermal diffusivity and thermal expansion of CuGa2were performed in the temperature range 298-500 K. The heat conductivity coefficient was further calculated using literary data concerning the density and heat capacity of the copper digallide.

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ChemInform Abstract: Practical Aspects of ⁵¹V and ⁹³Nb Solid‐State NMR Spectroscopy and Applications to Oxide Materials

Lapina

Khabibulin

Шубин

et al. 2009

ChemInform

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Structure and Reactivity of Metal Ion Species in High‐Silica Zeolites.

2005

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А. Б. Шубин

Effect of synthesis route on structure and properties of AlCoCrFeNi high-entropy alloy

Thermal Properties of CuGa<sub>2</sub> Phase in Inert Atmosphere

ChemInform Abstract: Practical Aspects of ⁵¹V and ⁹³Nb Solid‐State NMR Spectroscopy and Applications to Oxide Materials

Structure and Reactivity of Metal Ion Species in High‐Silica Zeolites.

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А. Б. Шубин

Effect of synthesis route on structure and properties of AlCoCrFeNi high-entropy alloy

Thermal Properties of CuGa<sub>2</sub> Phase in Inert Atmosphere

ChemInform Abstract: Practical Aspects of 51V and 93Nb Solid‐State NMR Spectroscopy and Applications to Oxide Materials

Structure and Reactivity of Metal Ion Species in High‐Silica Zeolites.

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Product

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ChemInform Abstract: Practical Aspects of ⁵¹V and ⁹³Nb Solid‐State NMR Spectroscopy and Applications to Oxide Materials