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
Hiduron Mechanical Seals
Hiduron 130 (UNS C72400) and Hiduron 191 (UNS C72420) are specified into mechanical seal faces, gland plates, bushing sleeves, throttle bushes and seal carrier bodies on marine and subsea rotating equipment. The Cu-Ni-Al matrix runs anti-galling against tungsten-carbide and silicon-carbide primary running faces, holds seawater corrosion and biofouling resistance for long-immersion service, and develops the dimensional stability required for tight seal-face flatness and concentricity tolerances. Seal packages from John Crane, AESSEAL, EagleBurgmann and Flowserve specify Hiduron carrier and gland-plate hardware on seawater pump, ballast pump and fire-water main pump duty across offshore platforms and naval auxiliaries.
The mechanical seal application stacks four drivers: anti-galling against the carbide running face, dimensional stability through the age cycle, seawater corrosion resistance on the wet side, and non-magnetic compliance for naval seal packages. Hiduron 130 covers the mid-strength carrier and gland-plate hardware. Hiduron 191 covers the higher-strength stationary face carriers and the bolting that mounts the seal package to the equipment. The grade does not require the post-machining stress relief that high-strength stainless seal carriers need to hold dimensional tolerance, because the gamma-prime precipitation locks dimensional stability into the heat-treated condition.
Hiduron Chemical Composition (Cu-Ni-Al Family)
Hiduron 130 (UNS C72400) is a copper-nickel-aluminium-iron precipitation-hardened cupronickel with roughly 14 to 15.5 percent nickel, 2.7 to 3.4 percent aluminium and 1 to 2 percent iron in a copper matrix. Hiduron 191 (UNS C72420) carries the same nickel envelope with a manganese addition of 4 to 5 percent and a lower aluminium and iron level, which lifts the strength response while preserving NACE MR0175 compliance. The aluminium is the gamma-prime former: it pairs with the nickel during age to precipitate the Ni3Al strengthening phase that is the entire reason both grades carry yield strengths above any conventional cupronickel.
| Element | Hiduron 130 typical, percent | Hiduron 191 typical, percent | Role |
|---|---|---|---|
| Copper (Cu) | balance (~80 to 82) | balance (~76 to 78) | Matrix; seawater corrosion resistance |
| Nickel (Ni) | 14.0 to 15.5 | 14.0 to 15.5 | Strengthening partner for gamma-prime Ni3Al |
| Aluminium (Al) | 2.7 to 3.4 | 1.5 to 2.5 | Gamma-prime former; precipitation hardening |
| Iron (Fe) | 1.0 to 2.0 | 0.5 to 1.5 | Grain refinement; corrosion modifier |
| Manganese (Mn) | up to 0.75 | 4.0 to 5.0 | Solid-solution strengthening (191) |
| Silicon (Si) | up to 0.10 | up to 0.10 | Deoxidation residual |
| Lead (Pb) | up to 0.02 | up to 0.02 | Tramp limit for hot workability |
| Carbon (C) | up to 0.05 | up to 0.05 | Tramp limit |
Hiduron Mechanical Properties (Solution Annealed + Aged)
Both Hiduron grades are supplied in the solution-annealed-plus-aged condition. Hiduron 130 develops tensile 740 to 850 MPa with 0.2 percent proof stress at least 480 MPa and elongation A5 at least 18 percent. Hiduron 191 develops tensile 820 to 1000 MPa with 0.2 percent proof stress at least 580 MPa and elongation A5 at least 15 percent. Both grades hold hardness below the NACE MR0175 sour-service limit of 286 HBW / 28 HRC when the age is controlled correctly. Magnetic permeability stays below 1.005 mu_r in both grades, which is the value that qualifies them for naval mine-countermeasures and submarine applications where stainless steels and standard Monel grades are excluded.
| Property | Hiduron 130 | Hiduron 191 | Test condition |
|---|---|---|---|
| Tensile strength (Rm) | 740 to 850 MPa | 820 to 1000 MPa | RT, SA+aged |
| 0.2 percent proof stress (Rp0.2) | ≥480 MPa | ≥580 MPa | RT, SA+aged |
| Elongation A5 | ≥18 percent | ≥15 percent | RT, longitudinal |
| Hardness (HV) | 240 to 280 | 270 to 320 | RT, Vickers |
| NACE MR0175 hardness ceiling | n/a (not NACE) | ≤28 HRC / ≤286 HBW | Sour-service limit |
| Charpy V impact (RT) | ≥60 J | ≥40 J | RT, longitudinal |
| Magnetic permeability | <1.005 mu_r | <1.005 mu_r | Non-magnetic, naval qualified |
| Density | 8.85 g/cm3 | 8.65 g/cm3 | Calculated |
Why Hiduron Beats Standard Cupronickel and Monel K-500
The Hiduron family combines seawater corrosion and biofouling resistance of conventional 70/30 cupronickel with the strength response of gamma-prime precipitation hardening. The decisive value drivers are: NACE MR0175 sour-service compliance at high yield strength, hydrogen embrittlement immunity in cathodically protected subsea service, non-magnetic response below 1.005 mu_r for naval qualification, anti-galling behaviour against stainless and tungsten-carbide running faces, and anti-biofouling response that suppresses marine growth on long-immersion components. Standard Monel K-500 carries higher hardness than NACE MR0175 will allow at the strength levels that subsea connector and platform bolting require, which is the gap Hiduron 191 fills.
- NACE MR0175 sour-service compliance: Hiduron 191 is qualified to the 286 HBW / 28 HRC ceiling at full yield-strength specification.
- Hydrogen embrittlement immunity: Cu-Ni-Al matrix does not trap hydrogen at the precipitate interfaces, so cathodically protected subsea bolting holds capacity through service life.
- Non-magnetic, below 1.005 mu_r: Qualified for UK Royal Navy mine-countermeasures hulls, submarine fittings and non-magnetic instrument bays.
- Anti-galling: The Cu-Ni-Al matrix runs against austenitic stainless, super duplex, tungsten carbide and silicon carbide without surface seizure.
- Anti-biofouling: Copper-nickel matrix releases trace copper ions that suppress barnacle, mussel and tube-worm attachment to long-immersion components.
Hiduron Heat Treatment (Solution Anneal + Age, Gamma-Prime Precipitation)
The standard cycle is solution-anneal at 900 to 950 deg C, hold one hour every 25 mm of section, then water quench to freeze the gamma-prime formers in solid solution. The age follows at 475 to 525 deg C for 3 to 6 hours then air cool. The age develops the Ni3Al strengthening precipitate that lifts the yield strength to the specification floor. Age temperature is the controlling variable: below 475 deg C the precipitate is under-developed and room-temperature yield falls below specification; above 525 deg C the precipitate over-coarsens and tensile drops. For NACE MR0175 sour-service bolting the age cycle is controlled to land hardness below 286 HBW / 28 HRC, and the hardness reading on the mill test certificate is the compliance evidence.
Hiduron Welding Notes
Hiduron 130 and Hiduron 191 are welded with matched-composition Cu-Ni-Al filler under inert-gas shielding using gas tungsten arc with argon shield. Preheat is 100 to 150 deg C and inter-pass temperature is controlled below 250 deg C to protect the heat-affected-zone toughness. The filler chemistry matches the parent gamma-prime response so the joint develops comparable strength after a post-weld age at 475 to 525 deg C. On naval and subsea bolting, post-weld solution-anneal followed by full age is standard to restore parent properties through the weld. Inspection follows ISO 5817 quality level B visual, dye-penetrant on cap and root, and ultrasonic on butt joints above 25 mm. On Hiduron 191 sour-service welds, hardness traverse across weld plus HAZ plus parent verifies hardness stays below 286 HBW / 28 HRC at every point.
Hiduron 130 vs 191 vs Monel K-500 vs Nickel Aluminium Bronze
Hiduron 130 is the mid-strength Cu-Ni-Al grade specified into subsea hydraulic connectors and general marine bolting to DTD 900/4805. Hiduron 191 steps up the strength envelope and adds NACE MR0175 sour-service compliance, which is why it is the controlling spec on naval and splash-zone bolting. Monel K-500 carries the same gamma-prime mechanism in a nickel-copper matrix but exceeds the NACE MR0175 hardness ceiling at full strength specification. Nickel Aluminium Bronze (UNS C95400) is a different alloy family (Cu-Al-Ni-Fe casting alloy) with a different strengthening mechanism; it is not interchangeable with Hiduron.
| Grade | UNS | Service envelope | When to specify |
|---|---|---|---|
| Monel K-500 | N05500 | Subsea instruments, gauges | Step UP to Hiduron 191 when NACE MR0175 hardness limits exclude K-500 |
| Hiduron 191 | C72420 | Naval, subsea, splash zone, sour service | Highest-strength NACE-compliant Cu-Ni-Al; non-magnetic |
| Hiduron 130 | C72400 | Subsea hydraulic connectors, marine | Mid-strength Cu-Ni-Al; subsea connector flagship grade |
| Nickel Aluminium Bronze (NAB) | C95400 | Propellers, marine valves | Different alloy family; not interchangeable with Hiduron |
| 70/30 Cupronickel | C71500 | Seawater piping | Lower strength; Hiduron replaces it where structural load matters |
Hiduron Applications by Industry
The Hiduron family is specified into eight primary service areas across subsea, naval and marine sectors. Each application page below sets out the selection drivers, fastener form-factor mix, governing standards and inspection regime for that service.
- Subsea Connectors: Hiduron 130 flying-lead, stab-plate and umbilical termination bodies for subsea hydraulic and electrical control systems.
- Riser Bolting: Hiduron 191 splash-zone bolting on North Sea and Gulf of Mexico offshore platform risers.
- Splash Zone Bolting: Hiduron 191 fasteners for the wet-dry tidal band where stainless steels suffer chloride crevice attack.
- Naval Fasteners: NES 835, DEF STAN 02-835 and DOD-C-24676 procurement on Royal Navy, US Navy and allied surface and submarine bolting.
- Pump Shafts and Valve Spindles: Marine pump shafts and subsea valve spindles where anti-galling and corrosion fatigue performance are decisive.
- Mechanical Seals: Seal-face bodies that need anti-galling against tungsten-carbide and silicon-carbide running faces.
- Propeller Shafts: Naval and commercial marine propeller shafts and drive bushes.
- Sour Service (NACE): NACE MR0175 / ISO 15156 qualified bolting for sour oil and gas service.
Related Hiduron Forms and Fasteners
TorqBolt supplies Hiduron 130 and Hiduron 191 across the bolting and machined-component form range that the Cu-Ni-Al alloy class is commercially available in. Plate, sheet, tubing, seamless pipe, fittings and flanges are not commercial Hiduron forms and are not supplied. Every order is supplied with EN 10204 type 3.1 mill test certificate by default, with type 3.2 third-party witness on call-out.
- Round Bar: hot-worked stock OD 16 to 250 mm
- Stud Bolts: M12 to M100, lengths 50 to 600 mm, flange bolting
- Hex Bolts + Heavy Hex Bolts: DIN 931 / ISO 4014 / ASME B18.2.1
- Anchor Bolts + U-Bolts + Threaded Rod
- Nuts + Heavy Hex Nuts + Washers: matched-grade companion hardware
- Forgings: subsea connector blanks up to 600 kg piece
- Machined Components: subsea connector bodies, valve spindles, pump shafts to project drawing
Request a Quote on Hiduron Bolting and Machined Components
TorqBolt supplies Hiduron 130 (UNS C72400) and Hiduron 191 (UNS C72420) bolting and machined components worldwide from Mumbai head office and Rajkot production plant. EN 10204 type 3.1 mill test certificate by default; type 3.2 with Lloyd's Register, DNV, BV, SGS or TUV witness inspection on call-out. NACE MR0175 hardness certificate on call-out for Hiduron 191 sour-service orders. Send your enquiry →
Hiduron Mechanical Seals Frequently Asked Questions
Q. Why is Hiduron specified for mechanical seal carriers and gland plates?
Anti-galling against tungsten-carbide and silicon-carbide primary seal faces, seawater corrosion resistance, biofouling immunity for long-immersion service, dimensional stability through the age cycle, and non-magnetic compliance for naval seal packages. The four drivers stack together on marine and subsea seal duty.
Q. Hiduron 130 or Hiduron 191 for seal-face carriers?
Hiduron 130 for mid-strength carriers and gland plates where the structural load is moderate. Hiduron 191 for stationary-face carriers, seal-mount bolting and higher-load applications where the yield strength above 580 MPa is required.
Q. Do you supply finished machined seal-face components or only bar stock?
Both. TorqBolt supplies round bar and forged blanks for owner-machining and supplies finished machined seal carriers, gland plates, throttle bushes and bushing sleeves to project drawing with surface finish report, flatness inspection and dimensional report.
Q. Which seal OEMs specify Hiduron carrier hardware?
John Crane, AESSEAL, EagleBurgmann and Flowserve specify Hiduron 130 and Hiduron 191 into carrier, gland-plate, throttle-bush and bushing-sleeve hardware on seawater pump, ballast pump and fire-water main pump duty across offshore platforms and naval auxiliaries.
Q. Is Hiduron seal hardware EN 10204 type 3.2 certified on call-out?
Yes. EN 10204 type 3.2 with Lloyd's Register, DNV, BV, SGS or TUV third-party witness is supplied on call-out and is the standard inspection regime for seal-face hardware on naval and subsea seal packages.
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