Precision Alloys
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Keywords: Nickel-based alloys
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Product Introduction
Product Introduction
Precision Alloys are a class of metallic alloy materials with specific physical properties (such as magnetic, thermal, electrical, and mechanical properties). Their composition and microstructure are strictly controlled to ensure high stability, consistency, and repeatability of performance.
Industry Applications
In the aerospace field, Precision Alloys are used to manufacture key components such as navigation instruments, meters, and sensors, improving the performance and reliability of aircraft. In the automotive field, Precision Alloys are used to manufacture engine components, transmission systems, and chassis components to improve vehicle performance and fuel efficiency. In the electronics field, Precision Alloys are used to manufacture inductors, transformers, and resistors, meeting the demand for high-performance materials in electronic devices. In the medical device field, Precision Alloys are used to manufacture artificial joints, pacemakers, and other medical devices to improve the precision and reliability of medical devices.
Alloy Grade Cross-Reference Table
Grade | Previous Grade | USA | Russia |
1J06 | 1J6,FeAl6 |
|
|
1J12 | FeAl12 | 12Alfenol | Ю12 |
1J13 | FeAl13 |
| Ю13 |
1J16 | FeAl16 |
| Ю16 |
1J22 | Co50V2 | Supermendur,HiperCo50 | 50KФ |
1J30 | Ni30 | ThermoPerm | 30H |
1J31 | Ni31 |
| 31H |
1J32 | Ni32 |
|
|
1J33 | Ni33Al1 |
| 33HЮ |
1J34 | Ni34Co29Mo3J | Mo-Permiver eltamax | 34MKMП |
1J38 | Ni38Cr13 |
| 38H14X |
1J46 | Ni46 | 45-Permalloy | 46H |
1J50 | Ni50 | Hy-Ra49 Permalloy | 50H |
1J51 | Ni50J |
| 50HП |
1J52 | Ni50Mo2 |
|
|
1J54 | Ni50Cr14Si |
| 50HCX |
1J65 | Ni65J | 65-Permiver Dynamax | 65HП |
1J66 | Ni65Mn |
|
|
1J67 | Ni65Mo2 |
| 65HM |
1J72 | Ni72Mo3Cu14 |
|
|
1J76 | Ni76Cr2Cu5 | Mumets | 76HXД |
1J77 | Ni77Mo4Cu5 | 4-79Permalloy | 77HXД |
1J79 | Ni79Mo4 |
| 79HM |
1J80 | Ni80Cr3Si |
| 80HXc |
1J83 | Ni80Mo3 |
| 80HM |
1J85 | Ni80Mo5 |
| 79HMA |
1J86 | Ni81Mo6 |
|
|
1J403 | Ni40Co25Mo4 |
|
|
2J04 | 2J4 | P6 |
|
2J07 | 2J7 |
| 52KФ |
2J09 | 2J9 |
| 52KФ9 |
2J10 |
| Vicalloy |
|
2J11 |
|
| 52K11 |
2J12 |
|
| 52KФ12 |
2J2l |
|
| 12KM12 |
2J23 |
|
| 12KM14 |
2J25 |
|
| 12KM16 |
2J27 |
| Comolloy |
|
2J3l |
|
| 52KФB |
2J32 |
|
| 52KФБ |
2J33 |
|
| 52KФA |
2J5l |
|
| 12KB14 |
2J52 |
|
| 16KBM |
2J53 |
|
| 12ГH |
3J01 | 3J1,Ni36CrTiAl |
| ЭИ702,36HXTЮ |
3J02 | 3J2,Ni36CrTiAlMo5 |
| ЭИ51,36HXTЮM5 |
3J03 | 3J3,Ni36CrTiAlMo8 |
| ЭИ53,36HXTЮM8 |
3J21 | Co40CrNiMo | Elgiloy | 40KHXM |
3J22 | Co40CrNiMoW | Diaflex,Elcolloy | 40KHXMH |
3J23 | Co40CrNiMoWCe |
|
|
3J32 |
| Berylco Nickel440 |
|
3J33 | Ni18Co9Mo5Ti | AlMar300,18Ni(300) | H18KOM5T |
3J40 | NiCr40Al |
| 40XHЮ-BH, ЭИ793 |
3J53 | Ni42CrTi | Ni-span C, Ni-span C902 Elinvar Extra | H41XT,42HXTЮ |
3J58 | Ni43CrTi |
| 44MXTЮ,H43XT |
3J59 | Ni43CrTiZrGe |
|
|
3J61 | Ni43CrTiMoCu |
|
|
3YC11 | Co40NiCrMoTiAl |
|
|
3YC15 | Co44CrWNiAl |
|
|
0Cr17Ni7Al |
| 17-7PH,631,S17700 | 09X17H7Ю |
0Cr17Ni7Mo2Al |
| PH15~7Mo,632,S15700 | H18KOM5T |
Co67NiNb |
|
| 67KHБ5 |
4J06 | 4J6 | 42Ni-6Cr,Carpenter426, | H42X6 |
Sylvania4,Sealmet 4 | |||
4J29 |
| Kovar,Rodar, | 29HK,29HK-BИ |
Techalloy Glasseal 29-17 | |||
4J32 |
| Super-InVar,Super-Nilvar | 32HKД,32HK-BИ |
4J33 |
|
| 33HK(Ni33Co17) |
4J34 |
| Ceramvar(Ni31Co25) | 31HK(Ni31Co20) |
24HK(Ni25Co28) | |||
4J36 |
| Invar,Nilvar,Unipsan | 36H,36H-BИ |
4J38 |
| 36NiFM |
|
4J42 |
| Nilo42,Invar | 42H |
4J45 |
| Nilo45 | 46H |
4J47 |
|
| 47HX |
4J49 |
| Carpenter | 47HXP |
4J50 |
| Nilo51 | 50H |
4J52 |
|
| 52H,52H-BИ |
4J58 |
|
| 58H-BИ |
4J78 |
|
| 75HM |
6J15 |
|
| X15H60-БИ,GNC112(日) |
6J20 |
|
| X20H80-БИ,GNC108(日) |
6J22 | 4Ye7 | Karma |
|
6J23 |
| Evanohm |
|
6JM |
|
| HM23ЮФ-BИ |
These advanced materials play a critical role in enabling technological progress and enhancing safety standards. In the medical field, certain biocompatible precision alloys with shape memory or super-elastic properties are vital for life-saving stents and orthopedic implants. In aerospace and automotive safety systems, alloys with precisely defined magnetic responses are essential for sensors in anti-lock braking and navigation systems. The consistent quality and specialized properties of these materials underpin advancements that define modern technological capabilities.
In conclusion, precision alloys are far more than mere metals; they are enablers of precision, reliability, and innovation. Their advantages in providing reliable functional properties, enabling tailored engineering solutions, improving long-term system efficiency, and facilitating technological advancement solidify their indispensable status. As industries continue to push the boundaries of performance, miniaturization, and smart technology, the demand for and development of specialized precision alloys will undoubtedly continue to be a driving force behind engineering achievements across a vast spectrum of high-tech applications.
Related Products
Aluminum alloy standard samples, also known as aluminum alloy standard substances or aluminum alloy standard specimens, are professionally customized for various grades of cast aluminum alloy spectral standard samples. They come with a component catalog and product certificate and are used for spectrographic analysis comparison in laboratories, etc.
300 series stainless steels such as 304, 316L, and 317L, which are resistant to atmospheric or seawater corrosion; austenitic stainless steels such as 904L and 254SMO, which have stronger corrosion resistance; duplex steels such as 2205 and 2507; nickel-based Corrosion-Resistant Alloys mainly include Hastelloy and Ni-Cu alloys, which have resistance to stress corrosion cracking caused by chloride ions in strongly reducing corrosive environments and complex mixed acid environments.
300 series stainless steels such as 304, 316L, and 317L, which are resistant to atmospheric or seawater corrosion; austenitic stainless steels such as 904L and 254SMO, which have stronger corrosion resistance; duplex steels such as 2205 and 2507; nickel-based Corrosion-Resistant Alloys mainly include Hastelloy and Ni-Cu alloys, which have resistance to stress corrosion cracking caused by chloride ions in strongly reducing corrosive environments and complex mixed acid environments.
300 series stainless steels such as 304, 316L, and 317L, which are resistant to atmospheric or seawater corrosion; austenitic stainless steels such as 904L and 254SMO, which have stronger corrosion resistance; duplex steels such as 2205 and 2507; nickel-based Corrosion-Resistant Alloys mainly include Hastelloy and Ni-Cu alloys, which have resistance to stress corrosion cracking caused by chloride ions in strongly reducing corrosive environments and complex mixed acid environments.
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