| Model: | - |
|---|---|
| Brand: | - |
| Origin: | - |
| Category: | Metallurgy , Mining & Energy / Metallurgy & Mining / Bars, Rods, Angles, and Stainless Steel Shapes |
| Label: | High Performance , Hastelloy C-2000 , UNS N06200 |
| Price: |
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| Min. Order: | - |
| Last Online:27 Aug, 2019 |
*Similar Grade
|
GB |
Trademark |
UNS |
DIN EN/DIN |
W-Nr. |
|
NS3405 |
Hastelloy C-2000 |
N06200 |
NiCr23Mo16Cu |
2.4675 |
*Product Forms
Pipe, Tube, Sheet, Strip, Plate, Round Bar, Flat Bar, Forgings, Hexagon, Wire
*Brief
Hastelloy C-2000 UNS N06200, Mostversatile, corrosion resistant alloy with excellent resistance touniform corrosion in oxidizing or reducing environments. Excellentresistance to stress corrosion cracking and superior resistance tolocalized corrosion as compared to C-276 alloy.
*Chemical Composition,%
|
% |
Ni |
Mo |
Fe |
Cr |
C |
Mn |
Si |
P |
S |
Al |
Cu |
Co |
|
Min |
Rest |
15.0 |
|
22.0 |
|
|
|
|
|
|
1.3 |
|
|
Max |
17.0 |
3.0 |
24.0 |
0.01 |
0.5 |
0.08 |
0.025 |
0.01 |
0.5 |
1.9 |
2.0 |
*Typical Physical & Mechanical Property(Annealed)
|
Density |
Melting point |
Tensile strength, MPa |
Yield strength, MPa |
Elongation,% |
|
8.89 g/cm3 |
1325-1370℃ |
760 |
363 |
40 |
*Specification
|
Rod, Bar, Wire, Forgings |
ASTM B462/ASME SB462, ASTM B574/ASME SB574, DIN 17752/17753/17754, ISO 9723/9724/9725 DIN 17752, ISO 9723 |
|
Plate, Sheet, Strip |
ASTM B575/ASME SB575, ASTM B906/ASME SB906, DIN 17750, ISO 6208 |
|
Pipe, Tube |
ASTM B622/ASME SB622, ASTM B619/ASME SB619, ASTM B626/ASME SB626, ASTM B751/ASME SB751, ASTM B775/ASME SB775, DIN 17751, ISO 6207 |
|
Others |
ASTM B366/ASME SB366, DIN17744 |
*Feature
This new material was designed to resist an extensive range of corrosive chemicals, including sulfuric, hydrochloric, and hydrofluoric acids. Unlike previous Ni-Cr-Mo alloys, which were optimized for use in either oxidizing or reducing acids, C-2000 alloy extends corrosion resistance in both types of environments. The combination of molybdenum and copper (at levels of 16 and 1.6 wt. %, respectively) provide the outstanding resistance to reducing media, while oxidizing acid resistance is provided by a high chromium content (23 wt. %).
*Application
From an engineering viewpoint, C-2000 alloy offers significant potential toward production improvement in plant operations. When used in place of the established Ni-Cr-Mo alloys, the enhanced resistance to corrosion in certain media results in longer equipment life (for a given thickness of material), while providing a greater degree of safety during an upset condition. This increase in corrosion performance versatility supports the industry trend toward multiple uses of equipment (reactors, heat exchangers, valves, pumps, etc.) to gain a greater return on the capitalized expense. For example, a reactor could be handling a hydrochloric acid-based product mixture, then used in another operation which may rely on the use of a nitric acid-based process. Because of its versatility, C-2000 alloy is the best equipped nickel-based alloy to handle this degree of variance in process streams.
