Ni 61 Fe Bal Cr 23 Al 1.4 C 0.10 Mn 1.0 S 0.015 Si 0.5
High Performance Alloys stocks and
produces Inconel 601 in this grade in the following forms: Bar, wire, sheet, plate, coil and forgings.
Overview
Inconel 601 nickel-chromium-iron alloy is a general-purpose engineering material for applications that require resistance to heat and corrosion. The outstanding characteristic of Inconel 601 is its resistance to high-temperature oxidation. The alloy also has good resistance to aqueous corrosion, has high mechanical strength, and is readily formed, machined, and welded.
The limiting chemical composition of Inconel 601 is listed in Table 1. The composition is a face-centered-cubic solid solution with a high degree of metallurgical stability. The alloy’s nickel base, in conjunction with a substantial chromium content, provides resistance to many corrosive media and high-temperature environments. Oxidation resistance is further enhanced by the aluminum content.
Characteristics
- The most important property of Inconel 601 is resistance to oxidation at very high temperatures up to 1250C. Even under severe conditions such as, cyclical heating and cooling. This is possible due to Inconel 601 having a tightly adherent oxide layer which is resistant against spalling.
- Resistance to carburization is good, also resistant to carbon nitriding conditions.
- Due to high chromium and some aluminum content, good resistance in oxidizing sulfur bearing atmospheres at elevated temperatures is demonstrated.
Applications
- Trays, baskets and fixtures used in various heat treatments such as carburizing and carbon nitriding.
- Refractory anchors, strand annealing and radiant tubes, high velocity gas burners, wire mesh belts etc.
- Insulating cans in ammonia reformers and catalyst support grids used in nitric acid production.
- Thermal reactors in exhaust system of petrol engines.
- Fabricated combustion chambers.
- Tube supports and ash trays in the power generation industry.
Chemistry
Chemical Requirements |
|
Ni |
Cr |
C |
Mn |
Si |
S |
Fe |
Max |
63.0 |
25.0 |
0.10 |
1.0 |
1.0 |
0.015 |
Bal |
Min |
58.0 |
21.0 |
|
|
|
|
|
Physical Properties
Density |
8.1 g/cm cube |
Specific Heat |
461 J/kg K |
Electrical Resistivity |
119 micro ohms cm |
Curie Temperature |
-190 C |
Melting Range |
1320 - 1370 C |
Thermal Expansion(10-6K) |
14.9 (20-300 C) |
Tensile Data
Mechanical Property Requirements |
|
Ultimate Tensile |
Yield Strength (0.2% OS) |
Elong. in 2 in., or 50mm or 4D, min., % |
R/A |
Hardness |
Cold Worked/Annealed |
Min |
80 KSi |
30 KSi |
30 |
|
|
Max |
|
|
|
|
|
Min |
550 MPa |
205 MPa |
|
|
|
Max |
|
|
|
|
|
Hot Worked/Annealed |
Min |
80 KSi |
30 KSi |
30 |
|
|
Max |
|
|
|
|
|
Min |
550 MPa |
205 MPa |
|
|
|
Max |
|
|
|
|
|
Specifications
Form |
Standard |
Metal Type |
UNS N06601 |
Bar |
ASTM B166 Din 17752 |
Wire |
|
Sheet |
ASTM B168 Din 17750 |
Plate |
ASTM B168 Din 17750 |
Fitting |
|
Forging |
Din 17754 |
Weld Wire |
FM 82 |
Weld Electrode |
FM 617 |
Din |
2.4851 |
Machining
MACHINING DATA |
Carbide tools are suggested
for rates better than 50% of Type 304. |
Machining Type |
Suggested starting rates are: |
Single Point turning : |
Roughing - 0.15" depth, 0.015"/rev feed -175 SFM
Finishing - 0.025" depth, 0.007"/rev feed - 200 SFM |
Drilling : |
1/4" Dia hole - 0.004"/rev feed - 60 SFM
1/2" Dia hole - 0.007"/rev feed - 60 SFM
3/4" Dia hole - 0.010"/rev feed - 60 SFM |
Reaming : |
Feed - same as drilling - 100 SFM |
Side and Slot Milling : |
Roughing - 0.25" depth - 0.007"/tooth feed - 125SFM
Finishing - 0.050" depth - 0.009"/tooth feed - 140SFM |
These rates are for carbide tools,
Type C-2 for roughing, drilling and reaming.
Type C-3 for finishing. |
INCONEL® is a registered trademark of the INCO family of companies.