Critical current and flux pinning properties of the superconducting Ti–V alloys

“…In Fig. 3(a), the theoretical lines 2 and 3 respectively represent flux line pinning due to the grain boundaries and dislocations [4,10]. It is observed in this figure that the role of point defects and dislocations are quite significant in pinning the flux lines in the x = 0 alloy.…”

“…Our previous studies reveal that though the grain boundaries pin the flux lines in these alloys, their is still lower than the commercial superconducting wires [3,4]. The average grain size in these alloys is found to vary from few hundred µm to few mm [4]. Thus, reducing the grain size may enhance the of these alloys.…”

“…They are machinable and have high upper critical field (Hc2(0)) [1,2]. Our previous studies reveal that though the grain boundaries pin the flux lines in these alloys, their is still lower than the commercial superconducting wires [3,4]. The average grain size in these alloys is found to vary from few hundred µm to few mm [4].…”

Grain Refinement and Enhancement of Critical Current Density in the V_0.60Ti_0.40 Alloy Superconductor With Gd Addition

“…In Fig. 3(a), the theoretical lines 2 and 3 respectively represent flux line pinning due to the grain boundaries and dislocations [4,10]. It is observed in this figure that the role of point defects and dislocations are quite significant in pinning the flux lines in the x = 0 alloy.…”

“…Our previous studies reveal that though the grain boundaries pin the flux lines in these alloys, their is still lower than the commercial superconducting wires [3,4]. The average grain size in these alloys is found to vary from few hundred µm to few mm [4]. Thus, reducing the grain size may enhance the of these alloys.…”

“…They are machinable and have high upper critical field (Hc2(0)) [1,2]. Our previous studies reveal that though the grain boundaries pin the flux lines in these alloys, their is still lower than the commercial superconducting wires [3,4]. The average grain size in these alloys is found to vary from few hundred µm to few mm [4].…”

Grain Refinement and Enhancement of Critical Current Density in the V_0.60Ti_0.40 Alloy Superconductor With Gd Addition

“…Structural investigation of these samples is performed with the help of optical metallography and angle dispersive x-ray diffraction (XRD) experiments using synchrotron radiation source. The details of the optical metallography and XRD experiments are available in references [10,13,14]. The measurements of magnetization (M) as functions of temperature (T) and time (t) were performed using a commercial vibrating sample magnetometer from Quantum Design, USA.…”

“…Detailed structural information of the currently investigated Ti-V samples was obtained from the XRD experiments, which has already been published [10,13,14]. The XRD patterns indicate that the as cast Ti 0.8 V 0.2 sample contains hexagonal ω (∼20%) and orthorhombic a ¢ (∼3%) phases within the major body-centred-cubic β phase matrix of this sample [14].…”

High-field paramagnetic Meissner effect and flux creep in low-T_cTi–V alloy superconductors

Enhancement of irreversibility field and critical current density of rare earth containing V0.60Ti0.40 alloy superconductor by cold-working and annealing