2019123 · Most importantly, many of these alloys are precipitation-strengthened by the coherent FCC A B phase y I, formed between nickel with aluminum, titanium or
contactThe temperature dependence of the thermal conductivity of a NbTi (50/50) superconductor is measured in the temperature range from 1.3 to 300 K in two different laboratories. From
contactNiobium is found in the minerals pyrochlore, its main commercial source, and columbite. The word Niobium originates from Niobe, daughter of mythical Greek king Tantalus. 22 Ti
contact20211114 · The most typical niobium titanium alloy is titanium content 66% (approx. 50% wt%). Niobium titanium alloy is an important alloyed superconductor material. Its
contact2019122 · The introduction of the Argon - Oxygen - Decarburization (AOD) steel- making process in about 1970, which enabled carbon contents below 0.03 percent to be
contact202323 · Niobium 50% Titanium alloy is an important alloyed superconductor material. Nb50Ti can be applied in superconductor and aerospace industry | +86 21
contactNiobium’s critical temperature for superconductivity is 9.3K – the highest critical temperature of any elemental superconductor. 5 Niobium has therefore been the natural choice for
contact2019220 · Nbti 55 ( Grade 36 in ASTMB348 or Custom made specificaiton) Since it is harder and stronger than other Nbti grades, which used in components of cell conductor
contactThe homogenization annealing temperature of niobium ingot is 1800~2000℃. The degree of vacuum is mmHg. The holding time depends on the size of the ingot, generally 5 to 10
contact2019225 · high pressure studies on the NbTi alloy is stimulated by the discovery of the robust superconductivity in the pressurized high entropy alloy (TaNb)0.67(HfZrTi)0.33, [14,18] a new class of superconductors which contain elemental niobium, titanium and other transition metal elements.[19,20] How the structural and superconducting properties of
contact20181011 · (a) θ–2θ scan XRD pattern of NbTi alloy thin film with 400 nm thickness on a STO substrate. (b) FWHM of 110 peaks of NbTi and NbTi (110) interplanar spacing (d 110) as a function of thickness ...
contact20211013 · For more than 30 years, Pb–Bi alloy and Wood's metal (50% Bi, 26.7% Pb, 13.3% Sn, and 10% Cd) have been used as representative superconducting solder intermedia to establish superconducting joints between NbTi and Nb3Sn wires in high-field nuclear magnetic resonance magnet systems. However, the use of Pb and Cd has been
contact201034 · Niobium titanium alloy NbTi is currently the standard ‘work horse’ of the superconducting magnet industry. It has been used in all accelerators so far constructed or planned, for all MRI systems and most other magnets. It is a ductile alloy with mechanical properties which make it easy to fabricate and use.
contactAbstract. We report on the results of a low temperature specific heat and magnetic susceptibility studies of a series of annealed-and-quenched binary NbTi alloys in the concentration range 41~53 wt.% Nb, which includes most compositions of technical interest. Also discussed is the influence of Mn on the calorimetrically measured properties of NbTi.
contactNiobium is found in the minerals pyrochlore, its main commercial source, and columbite. The word Niobium originates from Niobe, daughter of mythical Greek king Tantalus. 22 Ti 47.0 Titanium. See more Titanium products. Titanium (atomic symbol: Ti, atomic number: 22) is a Block D, Group 4, Period 4 element with an atomic weight of 47.867.
contact20211229 · The evolution of the microstructure and texture in body-centered cubic (BCC) niobium (Nb) during conventional rolling and high-ratio differential rolling (HRDSR) at room temperature were compared. More effective grain refinement of the initial microstructure through continuous dynamic recrystallization (CDRX) occurred in the
contactWe have made layered superconductors composed of alternating thin films of sputter-deposited Nb and Ge. Individual layer thicknesses range from 5 to 100 A, each sample containing from 50 to 80 Nb/Ge-layer pairs with a fixed thickness ratio, D/sub Nb//D/sub Ge/. As revealed by x-ray analysis, the samples have a distinct superlattice structure
contact2022922 · When the concentration of cobalt acetate and manganese is controlled at 5%, LSS-0.05 has the best electrochemical performance. At 5 C it has a capacity of 145 mAh g -1. At 0.2 C it has 232 mAh g -1 after 100 cycles, and the retention rate reaches 92.7%. The capacity of the original LR at 5 C is less than 100 mAh g -1.
contactThe basic processing technology of Nb-Ti superconducting materials is: smelting pure titanium and pure niobium into alloy ingots with consumable electric arc furnace or plasma furnace, and then hot-extruding to open billets, and then hot-rolling and cold-drawing into rods; Then insert the Nb-Ti alloy rod into the oxygen-free copper tube as the ...
contact2019103 · The superconducting joints allow the Nb-Ti magnet to operate in the persistent-mode to attain an ultra-stable (long-term drift rate of magnetic field on the order of 0.1 ppm∙h −1) magnetic ...
contactNiobium-titanium alloys (NbTi) became the superconductors of choice in the early 1960s, providing a viable alternative to the A-15 compounds and less ductile alloys of niobium-zirconium. This can be attributed to the relative ease of fabrication, better electrical properties, and greater compatibility with copper stabilizing materials.
contact20181011 · Aiming to introduce NbTi alloy superconducting joints for REBa 2 Cu 3 O 7-δ (REBCO, RE: rare-earth element) superconducting wires, NbTi alloy thin films were deposited at room temperature on SrTiO 3 (STO) (001) single-crystal substrates, which have a high lattice matching with REBCO (001). The strain, crystallinity, surface morphology,
contact201917 · The extraordinary superconductivity has been observed in a pressurized commercial niobium–titanium alloy. Its zero-resistance superconductivity persists from ambient pressure to the pressure as high as 261.7 GPa, a record-high pressure up to which a known superconducting state can continuously survive.
contactFor producing Nb-47Ti alloy ingots , electron beam melting furnace-EBMF (EMO-60) and for casting 50 & 60 mm dia copper crucibles were adopted. Required vacuum levels in the multi chambered EBMF were
contactThe temperature dependence of the thermal conductivity of a NbTi (50/50) superconductor is measured in the temperature range from 1.3 to 300 K in two different laboratories. From the analysis of the experimental results it follows that the electron processes provide the main contribution to the thermal transport in the range above 0.3Tc while phonon contribution
contact20211229 · The evolution of the microstructure and texture in body-centered cubic (BCC) niobium (Nb) during conventional rolling and high-ratio differential rolling (HRDSR) at room temperature were compared. More effective grain refinement of the initial microstructure through continuous dynamic recrystallization (CDRX) occurred in the
contactWe have made layered superconductors composed of alternating thin films of sputter-deposited Nb and Ge. Individual layer thicknesses range from 5 to 100 A, each sample containing from 50 to 80 Nb/Ge-layer pairs with a fixed thickness ratio, D/sub Nb//D/sub Ge/. As revealed by x-ray analysis, the samples have a distinct superlattice structure
contact2022922 · When the concentration of cobalt acetate and manganese is controlled at 5%, LSS-0.05 has the best electrochemical performance. At 5 C it has a capacity of 145 mAh g -1. At 0.2 C it has 232 mAh g -1 after 100 cycles, and the retention rate reaches 92.7%. The capacity of the original LR at 5 C is less than 100 mAh g -1.
contactThe basic processing technology of Nb-Ti superconducting materials is: smelting pure titanium and pure niobium into alloy ingots with consumable electric arc furnace or plasma furnace, and then hot-extruding to open billets, and then hot-rolling and cold-drawing into rods; Then insert the Nb-Ti alloy rod into the oxygen-free copper tube as the ...
contact20181011 · (a) θ–2θ scan XRD pattern of NbTi alloy thin film with 400 nm thickness on a STO substrate. (b) FWHM of 110 peaks of NbTi and NbTi (110) interplanar spacing (d 110) as a function of thickness ...
contact2019103 · The superconducting joints allow the Nb-Ti magnet to operate in the persistent-mode to attain an ultra-stable (long-term drift rate of magnetic field on the order of 0.1 ppm∙h −1) magnetic ...
contact1987615 · Niobium-titanium (Nb-Ti) is an alloy of niobium and titanium used for superconducting magnets in industrial applications. Systematic studies were taken up at our facility and successfully ...
contact20181011 · Aiming to introduce NbTi alloy superconducting joints for REBa 2 Cu 3 O 7-δ (REBCO, RE: rare-earth element) superconducting wires, NbTi alloy thin films were deposited at room temperature on SrTiO 3 (STO) (001) single-crystal substrates, which have a high lattice matching with REBCO (001). The strain, crystallinity, surface morphology,
contact2017121 · Keywords: NbTi superconducting alloy, three-dimensional atom probe, high resolu tion electron microscopy, computer simulation, atomic structure, α - and β -phases. 1. Introduction
contact20141010 · Due to its mechanical properties, niobium -titanium alloy is widely used to manufacture the flanges of superconducting niobium accelerating cavities. The material hardness is compliant to provide UHV -tight connections with aluminum gaskets or spring -type ga skets (Helicoflex). In addition, t he alloy can be directly
contactWe have made layered superconductors composed of alternating thin films of sputter-deposited Nb and Ge. Individual layer thicknesses range from 5 to 100 A, each sample containing from 50 to 80 Nb/Ge-layer pairs with a fixed thickness ratio, D/sub Nb//D/sub Ge/. As revealed by x-ray analysis, the samples have a distinct superlattice structure
contactThe basic processing technology of Nb-Ti superconducting materials is: smelting pure titanium and pure niobium into alloy ingots with consumable electric arc furnace or plasma furnace, and then hot-extruding to open billets, and then hot-rolling and cold-drawing into rods; Then insert the Nb-Ti alloy rod into the oxygen-free copper tube as the ...
contact2022922 · When the concentration of cobalt acetate and manganese is controlled at 5%, LSS-0.05 has the best electrochemical performance. At 5 C it has a capacity of 145 mAh g -1. At 0.2 C it has 232 mAh g -1 after 100 cycles, and the retention rate reaches 92.7%. The capacity of the original LR at 5 C is less than 100 mAh g -1.
contact2023321 · N/A Custom Niobium and Niobium Alloy Seamless Tube : N/A Custom : N/A Custom : N/A Custom : N/A Tube : NBTU0090: N/A 0.090 Inch (in) Common Outer Diameter Niobium and Niobium Alloy Seamless Tube : N/A 0.090 in 2.286 mm: N/A Custom : N/A Custom : N/A Tube : NBTU0100: N/A 0.100 Inch (in) Common Outer Diameter
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