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2021215 · High boron alloys with 2.0 wt% B based on 304 and 316 stainless steels, respectively, were prepared in this study. The comparative study of the microstructure
contact2015529 · Fig. 2 Ultralow fatigue in SMA films. Ultralow fatigue of the Ti-rich sample 2 demonstrated by next-to-identical 1st, 200th, and 10 7 th superelastic transformation
contact201666 · AlxIn1–xAsySb1–y digital alloys lattice-matched to GaSb were grown within the miscibility gap by molecular beam epitaxy, with aluminum fractions ranging from 0%
contact2020922 · To compare the performance of HASTELLOY® C-4 alloy with that of other materials, it is useful to plot the 0.1 mm/y lines. In the following graphs, the lines for C-4
contactSingle crystals of Ti-Al alloys containing 1.4, 2.9, 5, and 6.6 pct Al (by weight) were oriented for 〈a〉 slip on either basal or prism planes or loaded parallel along the c-axis to
contact20201214 · November 2020 VDM® Alloy 400 4 Mikrostrukturelle Eigenschaften VDM® Alloy 400 ist eine binäre Nickel-Kupfer-Legierung mit einer kubisch
contactNickel based alloys are characterized by high toughness, and good resistance to oxidation and corrosion. Alloying additions to the base nickel content creates grades that vary in
contact2010122 · UnleadedCopper-ZincAlloysCopper-Zinc-LeadAlloysfreemachiningPurposeshotForging(Free-MachiningBrass ...
contactDurch die Kombination von Chrom mit hohem Molybdängehalt erhält VDM ® Alloy C-4 eine außergewöhnliche Beständigkeit gegen eine Vielzahl von chemischen Medien: z.B.
contact202216 · where V a is the atomic volume, 〈Δε 2 〉 is the mean square volumetric strain (dilatation or compression) introduced by an individual atom into the effective medium constituted by the random alloy. The characteristic length a arises in the treatment of Geslin et. al. as a regularization length that characterizes the distribution of the volumetric strain
contactThe de Haas-van Alphen (dHvA) effect in pure Bi and lightly doped Bi-Pb alloys was studied using a sensitive mutual-induction technique. In pure Bi, we obtained for the electron and hole Fermi surfaces, respectively: Fermi energies E n = 25.0 meV and E p = 11.0 meV; the number densities per ellipsoid n = 0.96 × 10 17 cc and p = 3.00 × 10 17 cc, and the
contactThe optimized lattice constants are also listed in the table. The lattice vectors for Co 2 Mn 0.5 Fe 0.5 Ge and Co 2 FeGe 0.5 Ga 0.5 are a′ = (a + b)/2, b′ = (−a + b)/2, and c′ = c, where a, b, and c are lattice vectors for the cubic lattice. We used a 20 by 20 by 20 K-mesh for the Brillouin zone integration for ternary alloys such as ...
contact2020922 · To compare the performance of HASTELLOY® C-4 alloy with that of other materials, it is useful to plot the 0.1 mm/y lines. In the following graphs, the lines for C-4 alloy are compared with those of two popular, austenitic stainless steels (316L and 254SMO), a lower-molybdenum nickel alloy (625), and C-276 alloy in hydrochloric and sulfuric acids.
contact602CA / 2.4633 2.4633 ist eine hochkohlenstoffhaltige Nickel-Chrom-Eisen-Legierung, die ebenfalls Zusätze der Mikrolegierungselemente Titan, Zirkonium und Aluminium und Yttrium enthält. Alloy 602CA zeichnet sich aus durch: ausgezeichnete Hochtemperatur-Zeitstandwerte; ausgezeichnete Dauerschwingfestigkeit im HCF- und LCF-Modus
contact2022824 · Nanostructured high-entropy materials such as alloys, oxides, etc., are attracting extensive attention because of their widely tunable surface electronic structure/catalytic activity through mixing different elements in one system.To further tune the catalytic performance and multifunctionality, the designed fabrication of
contact20201214 · November 2020 VDM® Alloy 400 4 Mikrostrukturelle Eigenschaften VDM® Alloy 400 ist eine binäre Nickel-Kupfer-Legierung mit einer kubisch-flächenzentrierten Kristallstruktur. Mechanische Eigenschaften Die folgenden mechanischen Eigenschaften von VDM® Alloy 400 gelten für die beschriebenen Zustände und Spezifika- tionen in den
contact1 · Photodetectors have been applied to pivotal optoelectronic components of modern optical communication, sensing, and imaging systems. As a room-temperature ferroelectric van der Waals semiconductor, 2D α-In 2 Se 3 is a promising candidate for a next-generation optoelectronic material because of its thickness-dependent direct bandgap and excellent
contact201644 · †1xx.x: Controlled unalloyed (pure) compositions, especially for rotor manufacture †2xx.x: Alloys in which copper is the principal alloying element. Other alloying elements may be specified. †3xx.x: Alloys in which silicon is the principal alloying element. The other alloying elements such as copper and magnesium are specified. The 3xx.x
contact2023321 · After the FITR analyses, all of the samples were placed on a double adhesive tape, cast with melt Sn Bi alloy (52% Sn and 48% Bi) at 90 °C, then removed the tape after its solidification and repolished according to the method described by Zhang et al. (2018).Cathodoluminescence (CL) images (Fig. S1 and S2), transmitted and reflected
contact2015331 · Reuse & Permissions. It is not necessary to obtain permission to reuse this article or its components as it is available under the terms of the Creative Commons Attribution 3.0 License.This license permits unrestricted use, distribution, and reproduction in any medium, provided attribution to the author(s) and the published article's title, journal
contact1 · Photodetectors have been applied to pivotal optoelectronic components of modern optical communication, sensing, and imaging systems. As a room-temperature ferroelectric van der Waals semiconductor, 2D α-In 2 Se 3 is a promising candidate for a next-generation optoelectronic material because of its thickness-dependent direct bandgap and excellent
contact2022824 · Nanostructured high-entropy materials such as alloys, oxides, etc., are attracting extensive attention because of their widely tunable surface electronic structure/catalytic activity through mixing different elements in one system.To further tune the catalytic performance and multifunctionality, the designed fabrication of
contactAlloy 20 / 2.4660 is a low-carbon, niobium stabilized austenitic nickel-iron-chromium alloy with copper and molybdenum. Excellent resistance to sulphuric and phosphoric acids. Good resistance to intergranular corrosion. Good resistance to pitting and crevice corrosion. Very good resistance to chloride-ion induced stress-corrosion cracking.
contact400. Description. Alloy 400 / 2.4360 is a nickel-copper alloy with excellent corrosion resistance. Special properties. Corrosion resistance in a wide range of marine and chemical environments. No chloride induced stress
contact202155 · The studied alloys were cast in an open resistive oven with a tilting ceramic crucible with a melting capacity of 3 kg Al. The primary Al (supplied by HYDRO), was heated and stabilized at 850 °C ...
contact2.4605 / Alloy 59 ist eine Nickel-Chrom-Molybdän Legierung mit besonders niedrigen Gehalten an Kohlenstoff und Silizium. Hervorragende Beständigkeit gegenüber einer Vielzahl von korrosiven Medien, sowohl unter oxidierten als auch reduzierten Bedingungen. Ausgezeichnete Beständigkeit gegen Loch- und Spaltkorrosion sowie gegen Mineralsäuren.
contactMaterial 2.4660 (alloy 20) is a high-corrosion resistant alloy, which shows very good resistance to phosphoric acid, nitric acid, sulfuric acid in chloric media. 2.4660 (alloy 20) is chiefly used in the chemical industry, apparatus engineering and heat exchangers. Our product range in 2.4660 (alloy 20) are tubes and pipes, fittings and flanges ...
contactNickel based alloys are characterized by high toughness, and good resistance to oxidation and corrosion. Alloying additions to the base nickel content creates grades that vary in the relative range of the these characteristics, which imparting good mechanical strength and high temperature properties.
contact20201214 · November 2020 VDM® Alloy 400 4 Mikrostrukturelle Eigenschaften VDM® Alloy 400 ist eine binäre Nickel-Kupfer-Legierung mit einer kubisch-flächenzentrierten Kristallstruktur. Mechanische Eigenschaften Die folgenden mechanischen Eigenschaften von VDM® Alloy 400 gelten für die beschriebenen Zustände und Spezifika- tionen in den
contact1 · Photodetectors have been applied to pivotal optoelectronic components of modern optical communication, sensing, and imaging systems. As a room-temperature ferroelectric van der Waals semiconductor, 2D α-In 2 Se 3 is a promising candidate for a next-generation optoelectronic material because of its thickness-dependent direct bandgap and excellent
contact1.1.1 Plate in all alloys and sheet in heat-treatable alloys: mill finish. 1.1.2 Sheet in nonheat-treatable alloys: mill finish, one-side bright mill finish, standard one-side bright finish, and standard two-sides bright finish. 1.2 Alloy and temper designations are in accordance with ANSI H35.1/H35.1(M). The equivalent Unified Numbering
contactVDM® Alloy 59 eignet sich für ein breites Spektrum von Anwendungen in der Chemie, Petrochemie, Energie- und Umwelttechnik. Typische Anwendungen sind: Anlagenkomponenten für Prozesse der organischen Chemie mit chloridhaltigen Medien, insbesondere wenn Katalysatoren auf Chloridbasis eingesetzt werden. Wäscher,
contact201666 · AlxIn1–xAsySb1–y digital alloys lattice-matched to GaSb were grown within the miscibility gap by molecular beam epitaxy, with aluminum fractions ranging from 0% to 80%. Photoluminescence spectra from AlxIn1–xAsySb1–y films and from AlxIn1–xAsySb1–y/GaSb type-II superlattices were used to determine the direct bandgap
contactThe de Haas-van Alphen (dHvA) effect in pure Bi and lightly doped Bi-Pb alloys was studied using a sensitive mutual-induction technique. In pure Bi, we obtained for the electron and hole Fermi surfaces, respectively: Fermi energies E n = 25.0 meV and E p = 11.0 meV; the number densities per ellipsoid n = 0.96 × 10 17 cc and p = 3.00 × 10 17 cc, and the
contactAlloy C-4 / 2.4610 is an austenitic low-carbon nickel-molybdenum-chromium alloy. | Very good resistance to a wide range of corrosive media, particularly under reducing conditions. Excellent resistance to localized corrosion in halide media. ... (201) 310 77 47 | | All data is without guarantee for correctness ...
contact200031 · Abstract. Based on the theory of Pilling-Bedworth ratio (PBR) for metals, PBR for oxidation of alloys is suggested as Three Al2O3 forming alloys (Ni3Al, NiAl and NiAl3) were used as examples to ...
contact602CA / 2.4633 2.4633 ist eine hochkohlenstoffhaltige Nickel-Chrom-Eisen-Legierung, die ebenfalls Zusätze der Mikrolegierungselemente Titan, Zirkonium und Aluminium und Yttrium enthält. Alloy 602CA zeichnet sich aus durch: ausgezeichnete Hochtemperatur-Zeitstandwerte; ausgezeichnete Dauerschwingfestigkeit im HCF- und LCF-Modus
contact202213 · 0,2 min [MPa] 305 300 280 R m [MPa] 700 - 900 700 - 900 700 - 900 A min [%] 40 40 40 Mechanische Eigenschaften bei erhöhten Temperaturen* kennwert Halbzeugform Festigkeits- Temperatur °C 100 200 300 400 Blech ≤ 5 mm Dicke R p 0,2 [MPa] 285 255 245 225 Bl ech > 5 bis ≤ 20 mm Dicke R p 0,2 [MPa] 270 245 220 205
contact2023321 · After the FITR analyses, all of the samples were placed on a double adhesive tape, cast with melt Sn Bi alloy (52% Sn and 48% Bi) at 90 °C, then removed the tape after its solidification and repolished according to the method described by Zhang et al. (2018).Cathodoluminescence (CL) images (Fig. S1 and S2), transmitted and reflected
contact