Development of New Ni-Al Porous Alloys for Metal-Supported Solid Oxide Fuel Cells
p.19
p.19
Effect of Thermomechanical Treatment on Superelasticity in Ni54Fe19Ga27 Single Crystals
p.24
p.24
Electromagnetic Properties of W – Hexaferrites Composites with Magnetic Texture
p.29
p.29
Electrophysical Characteristics of Metal-Insulator-Semiconductor Structures Comprising CdHgTe-Based Quantum Wells
p.34
p.34
Evaluation of Physical and Mechanical Properties of Structural Components of Ti-Nb Alloy
p.39
p.39
Formation of Coatings on Titanium Substrates Obtained from Mixtures of Tungsten and Cobalt Salts Using Shaped-Charge Explosion
p.43
p.43
High Temperature Uranium Nitride Decomposition
p.47
p.47
Influence of Surfactants on the Structure and Wear Resistance of Copper Alloyed Hypereutectoid Steel
p.53
p.53
Investigation of Product Aluminum - Water Reaction
p.59
p.59
Evaluation of Physical and Mechanical Properties of Structural Components of Ti-Nb Alloy
Abstract:
By the results of X-ray analysis, microstructural analysis, nanohardness and elastic modulus measurements it was defined that non-equilibrium phases during the process of crystallization are formed in the titanium-niobium alloy with 40wt.% of Nb. The minimum of non-equilibrium phases is formed at the Ti-40wt.% Nb alloy. The uniform grain structure, which consists of β-phase grains with the minimum of elastic modulus, is formed in the alloy ingot. Such structure and complex of properties allows using this alloy for severe plastic deformation.
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Info:
Periodical:
Advanced Materials Research (Volume 1040)
Pages:
39-42
Citation:
Online since:
September 2014
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