Nickel Alloy Products Suppliers, Nickel Alloy Price Per Kg
Nickel Alloy Distributors In India, Nickel Alloy Wholesale Dealers
High Nickel Alloy Products Stockist, Nickel Alloy Suppliers In Mumbai, India
High Nickel Alloy Products Stockist, Nickel Alloy Suppliers In Mumbai, India
Nickel Alloy Composition
Nickel alloy material properties
Compositions of some common nickel alloys
|
UNS No |
Al |
Cr |
Co |
Fe |
Mo |
Ni |
Nb+Ta |
Ti |
W |
|---|---|---|---|---|---|---|---|---|---|
| N10276 | 15.5 | 5.5 | 16 | 57 | 3.8 | ||||
| N06600 | 15.5 | 8 | 76 | ||||||
| N06625 | 21.5 | 9 | 61 | 3.6 | |||||
| N08800 | 21 | 46 | 32.5 | ||||||
| N07718 | 0.5 | 19 | 18.5 | 3 | 52.5 | 5.1 | |||
| N07090 | 1.5 | 19.5 | 16.5 | 60 | 2.5 |
Typical properties of some common nickel alloys
|
UNS No |
Condition |
UTS (MPa) |
0.2 Proof Stress (MPa) |
Elong. On 5cm (%) |
Hardness (HB) |
1000hr Ruptire Str. 750°C (MPa) |
|---|---|---|---|---|---|---|
|
N10276 |
Annealed |
790 |
415 |
50 |
184 |
N/a |
|
N06600 |
Annealed |
550-690 |
210-430 |
55-35 |
120-170 |
38 |
|
N06625 |
Annealed |
930 |
520 |
45 |
180 |
160 |
|
N08800 |
Annealed |
520-690 |
210-410 |
60-30 |
120-184 |
70 (700°C) |
|
N07718 |
Age Hardened |
1350 |
1180 |
17 |
382 |
170 |
Trade Names and Owners of Nickel Alloys
- HASTELLOY is a registered trade name of Haynes Intl.
- INCOLOY, INCONEL, MONEL and NIMONIC are registered trade names of the INCO family of companies.
- INVAR is a registered trademark of Imphy S.A.
- MU-METAL is a registered trademark of Telcon Metals Ltd
- NICORROS and NICROFER are registered tradenames of Krupp UM GmbH
Nickel Alloy Melting Point
| Material | °F | °C |
|---|---|---|
| Aluminum – Cadmium Alloy | 2511 | 1377 |
| Aluminum – Calcium Alloy | 1013 | 545 |
| Aluminum – Cerium Alloy | 1211 | 655 |
| Aluminum – Copper Alloy | 1018 | 548 |
| Aluminum – Germanium Alloy | 801 | 427 |
| Aluminum – Gold Alloy | 1056 | 569 |
| Aluminum – Indium Alloy | 1179 | 637 |
| Aluminum – Iron Alloy | 2107 | 1153 |
| Aluminum – Magnesium Alloy | 819 | 437 |
| Aluminum – Nickel Alloy | 2525 | 1385 |
| Aluminum – Platinum Alloy | 2300 | 1260 |
| Aluminum – Silicon Alloy | 1071 | 577 |
| Aluminum – Thorium Alloy | 2259 | 1237 |
| Aluminum – Zinc Alloy | 720 | 382 |
| Aluminum | 1220 | 660 |
| Antimony | 1170 | 630 |
| Arsenic – Antimony Alloy | 1121 | 605 |
| Arsenic – Cobalt Alloy | 1681 | 916 |
| Arsenic – Copper Alloy | 1265 | 685 |
| Arsenic – Indium Alloy | 1348 | 731 |
| Arsenic – Iron Alloy | 2017 | 1103 |
| Arsenic – Manganese Alloy | 1598 | 870 |
| Arsenic – Nickel Alloy | 1479 | 804 |
| Arsenic – Tin Alloy | 1074 | 579 |
| Arsenic – Zinc Alloy | 1333 | 723 |
| Beryllium | 2345 | 1285 |
| Beryllium – Copper Alloy | 1587 – 1750 | 865 – 955 |
| Bismuth | 520.5 | 271.4 |
| Brass | 1710 | 930 |
| Brass, Admiralty | 1650 – 1720 | 900 – 940 |
| Brass, Yellow | 1660 – 1710 | 905 – 932 |
| Bronze, Aluminum | 1190 – 1215 | 600 – 655 |
| Bronze, Manganese | 1590 – 1630 | 865 – 890 |
| Cadmium | 610 | 321 |
| Carbon Steel | 2600 – 2800 | 1425 – 1540 |
| Cast Iron | 2150 – 2360 | 1175 – 1290 |
| Chromium | 3380 | 1860 |
| Cobalt | 2723 | 1495 |
| Copper | 1983 | 1084 |
| Gold – Antimony Alloy | 680 | 360 |
| Gold – Bismuth Alloy | 466 | 241 |
| Gold – Cadmium Alloy | 932 | 500 |
| Gold – Cerium Alloy | 968 | 520 |
| Gold – Germanium Alloy | 673 | 356 |
| Gold – Lanthanum Alloy | 1042 | 561 |
| Gold – Lead Alloy | 419 | 215 |
| Gold – Magnesium Alloy | 1067 | 575 |
| Gold – Manganese Alloy | 1760 | 960 |
| Gold – Silicon Alloy | 685 | 363 |
| Gold – Sodium Alloy | 1609 | 876 |
| Gold – Tellurium Alloy | 718 | 416 |
| Gold – Thallium Alloy | 268 | 131 |
| Gold – Tin Alloy | 532 | 278 |
| Gold – Uranium Alloy | 1571 | 855 |
| Gold | 1945 | 1063 |
| Hastelloy (C) | 2410 – 2460 | 1320 – 1350 |
| Hydrogen | -434.83 | -259.35 |
| Incoloy Melting Point | 2540 – 2600 | 1390 – 1425 |
| Inconel Melting Point | 2540 – 2600 | 1390 – 1425 |
| Iridium Melting Point | 4440 | 2450 |
| Iron – Antimony Alloy | 1378 | 748 |
| Iron – Gadolinium Alloy | 1562 | 850 |
| Iron – Molybdenum Alloy | 2646 | 1452 |
| Iron – Niobium Alloy | 2498 | 1370 |
| Iron – Silicon Alloy | 2196 | 1202 |
| Iron – Tin Alloy | 2061 | 1127 |
| Iron – Yttrium Alloy | 1652 | 900 |
| Iron – Zirconium Alloy | 2421 | 1327 |
| Iron Melting Point | 2797 | 1536 |
| Lead – Antimony Alloy | 477 | 247 |
| Lead – Platinum Alloy | 554 | 290 |
| Lead – Praseodymium Alloy | 1908 | 1042 |
| Lead – Tellurium Alloy | 765 | 407 |
| Lead – Tin Alloy | 369 | 187 |
| Lead – Titanium Alloy | 1337 | 725 |
| Lead Melting Point | 621 | 327.5 |
| Magnesium – Antimony Alloy | 1080 | 582 |
| Magnesium – Nickel Alloy | 945 | 507 |
| Magnesium – Praseodymium Alloy | 1085 | 585 |
| Magnesium – Silicon Alloy | 1742 | 950 |
| Magnesium – Strontium Alloy | 799 | 426 |
| Magnesium – Thorium Alloy | 1080 | 582 |
| Magnesium – Zinc Alloy | 648 | 342 |
| Magnesium Melting Point | 1200 | 650 |
| Manganese Melting Point | 2271 | 1244 |
| Mercury Melting Point | -37.95 | -38.86 |
| Molybdenum – Nickel Alloy | 2403 | 1317 |
| Molybdenum – Niobium Alloy | 4167 | |
| Molybdenum – Osmium Alloy | 4311 | 2377 |
| Molybdenum – Rhenium Alloy | 4545 | 2507 |
| Molybdenum – Ruthenium Alloy | 3501 | 1927 |
| Molybdenum – Silicon Alloy | 3771 | 2077 |
| Molybdenum Melting Point | 4750 | 2620 |
| Monel | 2370 – 2460 | 1300 – 1350 |
| Nickel – Antimony Alloy | 2016 | 1102 |
| Nickel – Thorium Alloy | 1886 | 1030 |
| Nickel – Tin Alloy | 2066 | 1130 |
| Nickel – Titanium Alloy | 2043 | 1117 |
| Nickel – Tungsten Alloy | 2732 | 1500 |
| Nickel – Vanadium Alloy | 2192 | 1200 |
| Nickel – Zinc Alloy | 1607 | 875 |
| Nickel Melting Point | 2647 | 1453 |
| Niobium Melting Point | 4473 | 2470 |
| Nitrogen Melting Point | -345.73 | -209.85 |
| Osmium Melting Point | 5477 | 3025 |
| Oxygen | -361.75 | -218.75 |
| Platinum | 3220 | 1770 |
| Plutonium | 1180 | 640 |
| Potassium | 146 | 63.3 |
| Red Brass | 1810 – 1880 | 990 – 1025 |
| Rhodium | 3569 | 1965 |
| Selenium | 423 | 217 |
| Silicon Melting Point | 2572 | 1411 |
| Silver – Aluminum Alloy | 1044 | 562 |
| Silver – Antimony Alloy | 905 | 485 |
| Silver – Arsenic Alloy | 1004 | 540 |
| Silver – Calcium Alloy | 1017 | 547 |
| Silver – Cerium Alloy | 977 | 525 |
| Silver – Copper Alloy | 1431 | 777 |
| Silver – Germanium Alloy | 1204 | 651 |
| Silver – Lanthanum Alloy | 964 | 518 |
| Silver – Lead Alloy | 579 | 304 |
| Silver – Lithium Alloy | 293 | 145 |
| Silver – Magnesium Alloy | 882 | 472 |
| Silver – Palladium Alloy | 1204 | 651 |
| Silver – Silicon Alloy | 1539 | 837 |
| Silver – Strontium Alloy | 817 | 436 |
| Silver – Tellurium Alloy | 662 | 350 |
| Silver – Thorium Alloy | 1641 | 894 |
| Silver – Zirconium Alloy | 1521 | 827 |
| Silver | 1760 | 961 |
| Sodium | 208 | 97.83 |
| Steel | 2750 | 1510 |
| Tantalum Melting Point | 5400 | 2980 |
| Thorium Melting Point | 3180 | 1750 |
| Tin Melting Point | 449.4 | 232 |
| Titanium | 3040 | 1670 |
| Tungsten | 6150 | 3400 |
| Uranium Melting Point | 2070 | 1132 |
| Vanadium Melting Point | 3450 | 1900 |
| Water Melting Point | 32 | 0 |
| Zinc Melting Point | 787 | 419.5 |
Nickel alloys are widely used in industries like offshore oil and gas, chemical processing, and nuclear power because they offer several key benefits. These alloys are known for their high strength and toughness, and they perform well at high temperatures. They also resist corrosion effectively in seawater, and are resistant to acids, alkalis, and salts.
These materials combine strength, hardness, and corrosion resistance, and can be easily shaped during fabrication. Depending on the specific alloy, they provide varying levels of strength at high temperatures, as well as resistance to pitting, erosion, and corrosion from acids and chlorides.
Certain types of nickel alloys with high molybdenum content are particularly resistant to pitting and crevice corrosion in many different industrial environments. For more detailed information about their uses and comparative corrosion resistance in different conditions (like types of media, concentrations, and temperatures), please contact us directly.