We performed 1.5 MeV electron-irradiation at 333 K and 533 K for Cu–4.2 at% Ti alloy with a single phase of super-saturated solid solution, and investigated the irradiation-induced changes in Vickers hardness and electrical conductivity. With increasing the electron...
Physical properties of titanium and titanium alloys such as density strength, thermal conductivity, electrical resistivity, magnetic properties, elastic modulus, poissons ratio, tensile strength, hardness, creep, fatigue and fracture toughness are all co
Verma V, Sajeevan R (2015) Multi process parameter optimization of diesinking EDM on titanium alloy (Ti6Al4V) using Taguchi approach. Mater Today Proc 2:2581–2587 Article Google Scholar Laxman J, Raj KG, Rao PV (2015) EDM process parameters effects on titanium super alloy 508–513 Khan ...
The aim of the current work is to investigate the effect of the addition of nanosize TiO2 participles to AA6063-T4 aluminum alloy on the electrical conductivity, magnetic and fatigue properties of composites produced by stir casting method. It was revealed that the AA6063-T4/TiO2 composites were...
Two-phase titanium alloys, Ti6Al4V (TC4), were used as workpiece materials for the experiments. In the experiments, a straight line was cut on the titanium alloy’s surface using a single point diamond tool in a presence of a magnetic field, while a comparative test was conducted by implem...
The main reason is that the machining gap becomes extremely smaller as the feed rate increasing, the product is easily piled up, and the electrical conductivity of the electrolyte in the processing zone is uneven, leading to nonuniform dissolution of the surface elements and poorer surface ...
In the present study, we developed a new supporting film for cryoEM experiments, the amorphous nickel-titanium alloy film (ANTA film). We proved the electrical conductivity of ANTA film is much greater than carbon film especially at liquid nitrogen temperature. Therefore, ANTA film exhibits less ...
The Titanium alloy is heated by the high-frequency induction coil with the help of Joule heat induced by the electric eddy current. As the increase of temperature of the Titanium alloys, the material properties would change with the temperature, such as the electrical conductivity, dynamic ...
Additive manufacturing Titanium alloy Aerospace Biomedical Automobiles Corrosion Mechanical properties 1. Introduction AM technique is a recently developed method, reportedly used to fabricate parts in industries, including biomedical, aerospace, and automobile [1, 2, 3]. This method invented by Chucks Hul...
Also, properties such as low density (4.5 g/cm3) combined with low thermal–electrical conductivity and high mechanical strength are often referred in literature and thus uphold titanium alloys as a material remarkably required in medicine and dentistry. The passive TiO2 formed on titanium surfaces ...