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CsI(Tl) semiconductor detectors for hard X-ray diagnostics at COMPASS Tokamak [PDF]
, 2015 Ficker, Ondrej +7 more
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Applied Physics A, 2020
Nickel-based alloy Inconel 625 is used in higher mechanical stress applications because of their superior oxidation and creep resistance. However, their undesirable tribological behaviour is the major technical issues in several applications. This research carried out the comparative investigation of Inconel 625 (IN625) and Colmonoy 6 deposition over ...
N. Jeyaprakash +2 more
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Nickel-based alloy Inconel 625 is used in higher mechanical stress applications because of their superior oxidation and creep resistance. However, their undesirable tribological behaviour is the major technical issues in several applications. This research carried out the comparative investigation of Inconel 625 (IN625) and Colmonoy 6 deposition over ...
N. Jeyaprakash +2 more
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Plasma nitriding of Inconel 625
Surface Technology, 1979Abstract Inconel 625 was nitrided in an N 2 + H 2 d.c. glow discharge, with the samples of Inconel being bombarded at a high temperature of about 500 °C and a high gas pressure of 3 Torr. Treatment for 10 h under these conditions enhanced the hardness by a factor of about 4.5 compared with the untreated alloy.
A.S. Rizk, D.J. McCulloch
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Electrochemical trepanning of blades made of Inconel 625
Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 2021In the aerospace field, difficult-to-machine materials are used widely to improve engine performance. As a nickel-based material that performs well in all aspects, Inconel 625 is used for the blisks of aircraft engines, and electrochemical trepanning (ECTr) is used widely to fabricate such blisks because of its unique advantages regarding ruled surface
Gaopan Lei, Dong Zhu, Di Zhu
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Hot deformation characteristics of Inconel 625
Materials Science and Technology, 1996AbstractThe hot deformation characteristics of Inconel 625 alloy were investigated by torsion testing at constant strain rates in the range of 0·17–5·3 s−1, and testing temperatures in the range of 950–1150°C. Examination of the microstructures was carried out by optical microscopy.
B. López, J. J. Urcola
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The creep and fracture properties of additively manufactured inconel 625
Materialia, 2020High temperature creep tests of additively manufactured (AM) nickel-based superalloy 625 (IN625) and wrought IN625 were conducted at 650 ˚C and 800. Thermal treatments were conducted for both AM and wrought IN625 samples prior to creep testing: either solution heat-treated or hot isostatically pressed and, additionally, long-term cyclic heat-treatments
Kwang-Tae Son +6 more
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Microstructural Evolution in cryomilled Inconel 625
MRS Proceedings, 2000ABSTRACTNanocrystalline Inconel 625 alloy, with a uniform distribution of grains, was synthesized using cryogenic mechanical milling. Microstructures of the powder, cryomilled for different times, were investigated using transmission electron microscopy (TEM), scanning electron microscopy (SEM) and X-ray diffraction (XRD).
Jianhong He, Enrique J. Lavernia
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Cold Spraying of Inconel 625 Thick Deposits
International Thermal Spray Conference, 2023Abstract Cold spraying (CS) of high strength materials, e.g., Inconel 625 is still challenging due to the limited material deformability and thus high critical velocities. Further fine tuning and optimization of cold spray process parameters is required, to reach higher particle impact velocities as well as temperatures, while avoiding ...
Farrokh Taherkhani +5 more
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Annealing of Additively Manufactured Inconel 625
2020The objective of this work is to study the effect of heat treatment on Inconel-625 fabricated by using selective laser melting. Annealing is performed to relieve stresses, improve the ductility, and toughness of Inconel-625. As-built Inconel-625 samples are annealed at temperatures ranging from 700 to 1200 °C.
Nakul D. Ghate +2 more
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THE PROGRESSION OF BENDING FATIGUE IN INCONEL 625
Fatigue & Fracture of Engineering Materials & Structures, 1988Abstract— Inconel 625 (N06625) was fatigued in reversed bending and the sequence of surface damage observed. A comparison was made with nickel and Monel K500 studied previously. It was found that, as with nickel, slip markings were present at one cycle even in high life samples.
C. E. Price, N. R. Houghton
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