Inconel Inconel is a family of austenitic nickel-chromium-based superalloys. Inconel Composition InconelElement (% by mass)NiCrFeMoNbCoMnCuAlTiSiCSPB60072.014.0–17.06.0–10.01.00.50.50.150.01561744.2–56.020.0–24.03.08.0–10.010.0–15.00.50.50.8–1.50.60.50.150.0150.0150.00662558.020.0–23.05.08.0–10.03.15–4.151.00.50.40.40.50.10.0150.01569059.5309.20.350.010.020.350.0190.00371850.0–55.017.0–21.0balance2.8–3.34.75–5.51.00.350.2–0.80.65–1.150.30.350.080.0150.0150.006X-75070.014.0–17.05.0–9.00.7–1.21.01.00.50.4–1.02.25–2.750.50.080.01 Inconel alloys Alloys of inconel include: Inconel Equivalent Grades STANDARDWERKSTOFF NR.UNSGOSTAFNORJISBSENORAlloy 6002.4816N06600МНЖМц 28-2,5-1,5NC15FE11MNCF 600NA 13NiCr15FeЭИ868Alloy 6012.4851N06601XH60BTNC23FeANCF 601NA 49NiCr23FeЭИ868Alloy 6172.4663N06617 Alloy 6252.4856N06625ХН75МБТЮNC22DNB4MNCF 625NA 21NiCr22Mo9NbЭИ602Alloy 6902.4642N06690 Alloy 7182.4668N07718 Alloy 725–N07725 Alloy X-7502.4669N07750 Inconel Melting Point, Density and Tensile Strength DensityMelting PointTensile StrengthYield Strength (0.2%Offset)Elongation6008.47 g/cm31413 °C (2580...
Grade Incoloy 800/ 800H/ 800HT Incoloy 800 Bolts Specification ASTM B408/ SB408 Nickel Alloy 800 Fasteners International Specifications DIN, ISO, JIS, GB, IS, BS, ASTM and all International Standards Length of Nickel Alloy 800H Bolts 3 – 200 mm Alloy 800 Nuts Sizes M3 – M56 | 3/6″ to 2″ | custom Incoloy 800HT Bolts...
Inconel® is a material that is specifically optimized for some of the toughest use conditions to be found in manufacturing while Duplex stainless steels is the most recent family of stainless steels. They are called duplex (or austenitic-ferritic) grades because their metallurgical structure consists of two phases, austenite (face-centered cubic lattice) and ferrite (body centered...
Hastelloy Hastelloy® jest znakiem towarowym dla serii o wysokiej wytrzymałości, opornych na niklu, odpornych na korozję stopów wyprodukowanych przez Haynes International. Stopy identycznych właściwości chemicznych i mechanicznych są dostępne od innych producentów i oferują doskonałe alternatywy dla różnych stopów Hastelloy. Wykupanie zapasów stopów niklu właściwości ogólne gęstość 8,89 GM/cm3 ciepło właściwe: 427 OC Toperz topnienia ...
Nickel base corrosion and temperature resistant alloys are classified as moderate to difficult when machining, however these alloys can be machined using conventional production methods at satisfactory rates. During the machining processes these alloys work harden rapidly, generate high heat during cutting, weld to the cutting tool surface and offer high resistance to metal removal...
Hastelloy C276 is a nickel-molybdenum-chromium superalloy with an addition of tungsten designed to have excellent corrosion resistance in a wide range of severe environments. The high nickel and molybdenum contents make the nickel steel alloy especially resistant to pitting and crevice corrosion in reducing environments while chromium conveys resistance to oxidizing media. The low carbon content minimizes...
UNS S31254 F44 A fully austenitic alloy with excellent corrosion resistance in a wide variety of aggressive, aqueous environments, widely used in the chemical processing and power industry for piping. F44 is also known as 254 SMO® *, 1.4547 and SS2378. Related specifications: ASTM A479 UNS S31254 Same day quote, next day dispatch Make an...
The content of this page is derived from Iqsdirectory.com Introduction This is the most comprehensive guide to cold forging available online. This article covers the following topics: Chapter One – What is Cold Forging and How Does It Work? Cold forging is a metal shaping & manufacturing process in which bar stock is inserted into...
Stal formierska Cr12MoV ma dobrą hartowność, hartowność, odporność na zużycie, wytrzymałość i wytrzymałość, stabilność termiczną …… Może być stosowana do produkcji wszelkiego rodzaju matryc i narzędzi do tłoczenia na zimno o dużym przekroju poprzecznym, złożonym kształcie i ciężkich warunkach pracy. Czasami jednak z jakichś powodów stal formierska Cr12MoV pęka po obróbce cieplnej. Dlaczego więc...