Specifications
Surface Treatments
Certifications
- ISO 9001 - 2015 Certified
- PED 2014/68/EC
- NACE MR0175/ISO 15156-2
- NORSOK M-650
- DFAR
- MERKBLATT AD 2000 W2/W7/W10
Nitronic 60 Machinability (Speeds, Feeds, Tooling)
Nitronic 60 machinability rates approximately 35 percent relative to AISI B1112 free-machining steel (which is the 100 percent baseline). The high work-hardening rate of austenitic stainless requires positive-rake tooling, rigid setups, and conservative feed rates. Carbide insert tooling is strongly preferred over HSS for production machining; HSS is acceptable for one-off prototype work with frequent re-sharpening. Coolant flood is essential to prevent work-hardening of the cut surface.
TorqBolt stocks Nitronic 60 (UNS S21800) at our Mumbai head office and Rajkot production plant. Each consignment ships with EN 10204 3.1 mill test certification by default and 3.2 dual-witnessed inspection (Lloyds, TUV, DNV, BV) on request. Contact info@torqbolt.com or +91-22-66157017 for sized stock and lead time.
Machining Approach Detail
Turning: positive-rake carbide insert, depth of cut 1.0 to 2.5 mm, feed 0.10 to 0.30 mm/rev, surface speed 30 to 60 m/min for carbide. Use coolant flood at high volume.
Drilling: cobalt HSS or carbide drill, 135-degree split-point, peck-drilling on holes deeper than 3D to clear chips. Surface speed 12 to 20 m/min for cobalt HSS, 25 to 40 m/min for carbide.
Tapping: dedicated stainless tap (cobalt or TiN-coated), spiral-point for through-holes, spiral-flute for blind holes. Coolant-fed tapping fluid mandatory.
Threading: external threading per turning parameters, internal threading via thread mill preferred over tap on long-engagement threads.
For dedicated speeds-and-feeds tables see speeds and feeds. For pre-machining hardness verification see hardness.
Chemistry — UNS S21800
Cr 16-18 / Mn 7-9 / Ni 8-9 / Si 3.5-4.5 / N 0.08-0.18 / C ≤0.10. See full element ranges with single and aggregate limits →
Nitronic 60 Mechanical Properties
Solution-annealed and cold-worked condition mechanical properties per ASTM A276, ASTM A479, and AMS 5848:
| Property | Solution Annealed | Cold-Worked HS |
|---|---|---|
| Yield Strength (0.2% offset) | 380 MPa (55 ksi) min | 620 MPa (90 ksi) min |
| Tensile Strength | 655 MPa (95 ksi) min | 860 MPa (125 ksi) min |
| Elongation (in 4D) | 35% min | 15% min |
| Hardness | 95 HRB max (~210 HB) | 30 HRC max |
| Impact (Charpy V at -196 C) | 54 J min | - |
| Density | 7.62 g/cc | 7.62 g/cc |
See yield strength, tensile properties, hardness, and density for cold-work curves and temperature-derated allowables.
Galling Resistance vs 304 / 316L (ASTM G98)
The primary reason buyers specify Nitronic 60. Threshold galling stress per ASTM G98 button-on-block self-mated test:
| Self-Mated Pair | Threshold Galling Stress (ASTM G98) | Relative |
|---|---|---|
| 304 / 304 | 35 to 70 MPa | 1x baseline |
| 316L / 316L | 35 to 70 MPa | 1x baseline |
| Nitronic 50 / Nitronic 50 | 175 to 275 MPa | 3-5x |
| Nitronic 60 / Nitronic 60 | 350 to 500 MPa | 5-10x |
Where threshold stress exceeds the applied contact stress, galling does not initiate. For 316L bolted joints at typical preload, contact stress routinely exceeds 70 MPa, so galling DOES initiate. Nitronic 60 raises the threshold above typical preload contact stress, so galling does NOT initiate. See galling resistance and galling failure mechanism for the full mechanism.
Heat Treatment
Solution anneal only at 1900-1950°F followed by water quench. No precipitation hardening response. See full heat treatment specification →
Welding
Matching filler ER218 per AMS 5847. GTAW, GMAW, and SMAW all qualified. No PWHT required for typical thicknesses. See full welding procedure →
Material Selection
Nitronic 60 wins for anti-galling at high temperature where 304/316L gall. Stellite is harder but brittle. vs 316L · vs Nitronic 50 · austenitic context →
Nitronic 60 Applications by Industry
- Marine and offshore, anti-galling bolting and deck hardware.
- Oil and gas, subsea wellhead, NACE MR0175 sour service, christmas-tree fasteners.
- Nuclear, valve trim, pump shafts, reactor coolant bolting.
- Food processing, FDA-acceptable austenitic, sanitary fittings, mixer paddles.
- Cryogenic, LNG hardware, austenitic stability to -196 C.
- Pump and rotating equipment, shafts and bushings under sliding seal contact.
- Valve stems, gate / globe valve stems under pressure cycling.
- Anti-galling general applications, cross-industry summary.
Related Nitronic 60 Forms and Fasteners
- Bar: round bar, hex bar, square bar, flat bar.
- Plate, sheet, forgings: plate, sheet, forgings.
- Wire and tubing: wire, spring wire, tubing, seamless pipe.
- Bolts: hex bolts, stud bolts, anchor bolts, socket head cap screws.
- Nuts: hex nuts, heavy hex nuts, lock nuts, jam nuts.
- Pins and inserts: dowel pins, clevis pins, bushings, Helicoil thread inserts.
- Catalog: full Nitronic 60 fastener portfolio, anti-galling fasteners.
Request a Quote
For Nitronic 60 stock with verified machinability certification, Contact the TorqBolt QA-QC team at info@torqbolt.com or +91-22-66157017. We respond within 24 hours with sized stock availability, lead time, and EN 10204 3.1 / 3.2 MTC documentation samples.
Frequently Asked Questions
What is the Nitronic 60 machinability?
See the values in the table above. The machinability of Nitronic 60 is one of the property metrics that distinguishes it from 304 / 316L.
Why does Nitronic 60 machinability matter?
For design engineering decisions, machinability directly affects component sizing, service envelope, and material substitution choices.
How is machinability verified?
Standard test methods per ASTM. Mill test certificate (EN 10204 3.1) reports the measured value for the heat lot.
What is the temperature dependence?
Nitronic 60 retains useful properties from -196 C cryogenic to ~815 C upper service temperature. Above 540 C check sigma-phase precipitation envelope.
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