ASTM B166 Inconel 600/601/617 Bar
- Grade: UNS N06600, N06601, N06603, N06690, N06693, N06025, N06045, and N06696, UNS N06617
- Round Rod Dia.: 6 – 300mm
- Rectangular (Flat), Hexagonal, Square Bar: Width≤254mm x Thickness≥3.2mm
- Wire Dia.: 0.5-3mm
Features
ASTM B166 Inconel 600/601/617 Alloy Rod, Bar, and Wire
Chemical Composition (wt.%)
Element | N06600 | N06601 | N06617 | N06690 | N06693 | N06025 | N06045 | N06603 | N06696 |
---|---|---|---|---|---|---|---|---|---|
Ni | 72.0 min | 58.0–63.0 | 44.5 min | 58.0 min | remainder | remainder | 45.0 min | remainder | remainder |
Cr | 14.0–17.0 | 21.0–25.0 | 20.0–24.0 | 27.0–31.0 | 27.0–31.0 | 24.0-26.0 | 26.0-29.0 | 24.0-26.0 | 28.0-32.0 |
Co | … | … | 10.0–15.0 | … | … | … | … | … | … |
Mo | … | … | 8.0–10.0 | … | 2.5–6.0 | … | … | … | 1.0-3.0 |
Fe | 6.0–10.0 | remainder | 3.0 max | 7.0–11.0 | 1.0 max | 8.0–11.0 | 21.0-25.0 | 8.0-11.0 | 2.0-6.0 |
Others | See note | See note | See note | See note | See note | See note | See note | See note | See note |
Mechanical Properties of Rods and Bars
Condition & Size | Tensile Strength min psi (MPa) | Yield Strength (0.2 % offset) min psi (MPa) | Elongation in 2 in. or 50 mm or 4D min % |
UNS N06600 Cold-worked | 120,000 (825) to 105,000 (725) | 45,000 (310) to 35,000 (240) | 7 to 12 |
UNS N06601 Cold/Hot-worked Annealed | 95,000 (655) | 35,000 (240) | 30 |
UNS N06617 Cold/Hot-worked Annealed | 98,000 (680) | 39,000 (270) | 30 |
UNS N06690 Cold-worked | 120,000 (825) to 80,000 (550) | 45,000 (310) to 35,000 (240) | 7 to 30 |
UNS N06696 Cold-worked (annealed and water quenched) | 85,000 (586) | 35,000 (240) | 30 |
Technical Specifications
Specification | Value |
Standard | ASTM B166 Nickel-Chromium-Aluminum Alloy, Nickel-Chromium-Iron Alloys, Nickel-Chromium-Cobalt-Molybdenum Alloy, Nickel-Iron-Chromium-Tungsten Alloy, and Nickel-Chromium-Molybdenum-Copper Alloy Rod, Bar, and Wire |
Grade | UNS N06600 (Inconel 600), N06601 (Inconel 601), N06603, N06690, N06693, N06025, N06045, and N06696, UNS N06617 (Inconel 617) |
Corrosion Resistance | Excellent |
Manufacturing Process | Hot-finished and cold-worked rounds, squares, hexagons, rectangles, and Cold-worked wire. |
Shapes | Rounds, Squares, Hexagons, Rectangles, and Wire. |
Density | 8.17g/cm³ |
Dimensions | Round Rod Dia.: 6 – 300mm Rectangular (Flat), Hexagonal, Square Bar: Width≤254mm x Thickness≥3.2mm Wire Dia.: 0.5-3mm |
Length | 50 – 6000mm |
Inspection Certificate | EN 10204 Type 3.1 (Mill Test Certificate), EN 10204 Type 3.2 (Witness Testing or 3rd Party Inspection) |
Tests | Chemical analysis ASTM E76, E350, E1473; Tensile Test ASTM E8; Rounding Procedure ASTM E29; Grain Size ASTM E112, UT/ET |
Packing
Small diameter packed in plywood box; large diameter packed on plywood pallets.
Application
Engine Components: Used in manufacturing parts of aircraft engines that require high temperature and corrosion resistance.
Airframe Structures: For structural components that require strength and durability.
Reactors and Piping: Materials resistant to corrosion by acids, alkalis, and other chemicals are needed for reactors, piping, and vessels.
Heat Exchangers: Utilized in heat exchangers that operate under corrosive conditions and high temperatures.
Turbine Components: Parts of turbines that face high temperatures and corrosive environments.
Boiler Tubes and Components: For boilers operating under high temperatures and pressures.
Offshore Oil Rigs: Components used in offshore oil rigs that are exposed to corrosive marine environments.
Piping Systems: Pipes and fittings for transporting corrosive substances.
High-temperature Furnace Parts: Components within furnaces that require materials capable of withstanding prolonged exposure to high temperatures.
Electronic Components: For components that need materials with specific thermal and electrical conductivities.
Exhaust Systems: For components within exhaust systems that face high temperatures and corrosive gases.
Turbocharger Parts: Materials capable of withstanding the extreme conditions within turbochargers.
Nuclear Reactors: Materials for components within nuclear reactors, where resistance to radiation and corrosion is critical.
Pollution Control Devices: These are used in fabricating parts of devices controlling industrial pollution, given their resistance to corrosive gases and high temperatures.