Products Description
Nickel 200 and 201 Pipes & Tubes are highly regarded in the industry for their exceptional properties and performance. Here are some key features and benefits of these pipes:Ferromagnetic and Low Electrical Resistivity: Nickel 200 and 201 pipes are ferromagnetic, meaning they can be magnetized, and they have low electrical resistivity. These properties make them suitable for applications where electrical conductivity is important.Low Carbon Substitutes: These pipes are low carbon substitutes of the Nickel 200 and 201 alloys. While this reduces their hardness compared to some other alloys, it also offers advantages such as improved ductility and ease of fabrication.Low Annealed Rigidity: Nickel 200 and 201 pipes have low annealed rigidity, which means they are relatively flexible and can withstand deformation without breaking. This makes them suitable for applications that involve bending or forming the pipes.Low Toughening Rate: These pipes have a low toughening rate, which means they do not become significantly harder or more brittle when subjected to cold working or strain. This property helps maintain the ductility and integrity of the pipes during fabrication processes.High Creep Resistance: Nickel 200 and 201 pipes exhibit high-level resistance to creep, which refers to the tendency of materials to deform over time under constant load at elevated temperatures. This makes them suitable for applications that involve high-temperature and long-term usage.High Strength and Ductility: These pipes are known for their excellent strength and ductility. They can withstand high mechanical stresses and pressures without undergoing significant deformation or failure, making them reliable for demanding applications.Resistance to Oxidation: Nickel 200 and 201 pipes offer exceptional resistance to oxidation, even at elevated temperatures. This means they can withstand exposure to air and high-temperature environments without undergoing significant corrosion or degradation.
In summary, Nickel 200 and 201 Pipes & Tubes are highly versatile, durable, and corrosion-resistant products. They possess excellent electrical conductivity, high creep resistance, and superior strength and ductility. These properties make them suitable for a wide range of applications in industries such as chemical processing, electronics, power generation, and more.
200/201 NICKEL PIPES AND TUBES EQUIVALENT GRADES
STANDARD |
WERKSTOFF NR. |
UNS |
JIS |
BS |
GOST |
AFNOR |
EN |
Nickel 200 |
2.4066 |
N02200 |
NW 2200 |
NA 11 |
НП-2 |
N-100M |
Ni 99.2 |
Nickel 201 |
2.4068 |
N02201 |
NW 2201 |
NA 12 |
НП-2 |
- |
LC-Ni 99 |
CHEMICAL COMPOSITION OF NICKEL 200/201 SEAMLESS AND WELDED PIPES / TUBES
Material / Purity: |
Alloy 200 |
Alloy 201 |
Ni |
99.00 |
99.00 |
Fe |
.40 |
0.40 |
Mn |
0.35 |
0.35 |
Si |
0.35 |
0.35 |
C |
0.15 |
0.02 |
S |
0.01 |
0.01 |
Cu |
0.25 |
0.25 |
MECHANICAL PROPERTIES OF NICKEL 200/201 PIPES AND TUBES
Nickel Alloy 200 |
||
Properties |
Metric |
Imperial |
Tensile strength (annealed) |
462 MPa |
67000 psi |
Yield strength (annealed) |
148 MPa |
21500 psi |
Elongation at break (annealed prior to test) |
45% |
45% |
Nickel Alloy 201 |
||
Properties |
Metric |
Imperial |
Tensile strength (annealed) |
403 MPa |
58500 psi |
Yield strength (annealed) |
103 MPa |
14900 psi |
Elongation at break (annealed prior to test) |
50% |
50% |
PHYSICAL PROPERTIES OF NICKEL 200/201 PIPES AND TUBES
Density |
8.902gm/cc |
Melting Point |
1453 oC |
Boiling Point |
2732 oC |
Thermal Conductivity |
0.909 W/cm/K @ 298.2K |
Electrical Resistivity |
6.84 microhm-cm @ 20 |
Electronegativity |
1.8 Paulings |
Specific Heat |
0.106 Cal/g/ K @ 25 |
Heat of Vaporization |
91.0 K-Cal/gm atom at 2732 oC |
Heat of Fusion |
4.20 Cal/gm mole |
Nickel Pipes & Tubes Application Industries
Our Nickel 200/201 Pipes & Tubes are used in a wide range of applications and various industries. Below are a few of them:
Petrochemical Industry
Oil and Gas Industry
Chemical Industry
Power Plant Industry
Energy Industry
Pharmaceuticals Industry
Pulp & Paper Indusry
Food Processing Industry
Aerospace Industry
Refining Industry
STANDARD |
WERKSTOFF NR. |
UNS |
JIS |
BS |
GOST |
AFNOR |
EN |
Nickel 200 |
2.4066 |
N02200 |
NW 2200 |
NA 11 |
НП-2 |
N-100M |
Ni 99.2 |
Nickel 201 |
2.4068 |
N02201 |
NW 2201 |
NA 12 |
НП-2 |
- |
LC-Ni 99 |
Material / Purity: |
Alloy 200 |
Alloy 201 |
Ni |
99.00 |
99.00 |
Fe |
.40 |
0.40 |
Mn |
0.35 |
0.35 |
Si |
0.35 |
0.35 |
C |
0.15 |
0.02 |
S |
0.01 |
0.01 |
Cu |
0.25 |
0.25 |
Nickel Alloy 200 |
||
Properties |
Metric |
Imperial |
Tensile strength (annealed) |
462 MPa |
67000 psi |
Yield strength (annealed) |
148 MPa |
21500 psi |
Elongation at break (annealed prior to test) |
45% |
45% |
Nickel Alloy 201 |
||
Properties |
Metric |
Imperial |
Tensile strength (annealed) |
403 MPa |
58500 psi |
Yield strength (annealed) |
103 MPa |
14900 psi |
Elongation at break (annealed prior to test) |
50% |
50% |
Density |
8.902gm/cc |
Melting Point |
1453 oC |
Boiling Point |
2732 oC |
Thermal Conductivity |
0.909 W/cm/K @ 298.2K |
Electrical Resistivity |
6.84 microhm-cm @ 20 |
Electronegativity |
1.8 Paulings |
Specific Heat |
0.106 Cal/g/ K @ 25 |
Heat of Vaporization |
91.0 K-Cal/gm atom at 2732 oC |
Heat of Fusion |
4.20 Cal/gm mole |