Size |
1/2''~48'' |
Thickness |
SCH5~SCHXXS |
End |
Beveled End,Plain End |
Length |
As per your requirement. |
Packing |
Export Standard packing or as per your requirements. |
HT PIPE supplys ASTM B622 Hastelloy C2000 Seamless pipe, Alloy C2000 Seamless pipe, Hastelloy C2000 welded Pipe, UNS N06200 seamless tube, 2.4675 seamless pipe and tube supplier, Hastelloy C2000 pipe and tube exporter.
Hastelloy® C2000(UNS N06200/2.4675) is a copper-beared Ni-Cr-Mo material with exceptional resistance to sulfuric acid. This provides greatly enhanced resistance to sulfuric acid. It also has a high chromium content, to maximize its resistance to oxidizing chemicals and process streams contaminated with ferric ions and dissolved oxygen. Like other nickel alloys, it is ductile, easy to form and weld, and possesses exceptional resistance to stress corrosion cracking in chloride-bearing solutions. It is able to withstand a wide range of oxidizing and non-oxidizing chemicals, and exhibits outstanding resistance to pitting and crevice attack in the presence of chlorides and other halides.
UNS N06200 Hastelloy C2000 Chemical Composition
Grade |
UNS |
C≤ |
Mn≤ |
P≤ |
S≤ |
Si≤ |
Ni |
Cr |
Mo |
Fe |
Co≤ |
Hastelloy C2000 |
N06200 |
0.01 |
0.5 |
0.025 |
0.01 |
0.08 |
Remainde |
22.0-24.0 |
15.0-17.0 |
3.0max |
2.0 |
Hastelloy C2000 Mechanical Properties
Mechanical properties |
Tensile, min, ksi[MPa] |
Yield, min, ksi[MPa] |
Elongation, %(min) |
UNS N06200 |
100[690] |
45[310] |
45 |
Welding & Fabrication
HASTELLOY® C-2000® alloy is very amenable to the Gas Metal Arc (GMA/MIG), GasTungsten Arc (GTA/TIG), and Shielded Metal Arc (SMA/Stick) welding processes.
HASTELLOY® C-2000® alloy can be hot forged, hot rolled, hot upset, hot extruded, and hot formed. However, it is more sensitive to strain and strain rates than the austenitic stainless steels, and the hot working temperature range is quite narrow. The alloy is stiffer than most austenitic stainless steels, and more energy is required during cold forming. Also, HASTELLOY® C-2000® alloy work hardens more readily than most austenitic stainless steels, and may require several stages of cold work, with intermediate anneals.
While cold work does not usually affect the resistance of HASTELLOY® C-2000® alloy to general corrosion, and to chloride-induced pitting and crevice attack, it can affect resistance to stress corrosion cracking. For optimum corrosion performance, therefore, the re-annealing of cold worked parts (following an outer fiber elongation of 7% or more) is important.