Valve and flow control
Trim, stems, seats, sleeves and hardfaced parts in corrosive, erosive and high-pressure service.
Nickel, cobalt, duplex and super duplex materials organised by grade family and critical application, so purchase and QC teams can connect specification, form, condition and documentation quickly.
High strength and corrosion performance under demanding environments. For valve, oil & gas, and high-temperature applications requiring metallurgical confidence and documentation integrity.
Nickel-chromium superalloy offering exceptional tensile strength, corrosion resistance, and fatigue performance. Widely specified for valve stems, oilfield CRA components, and high-pressure assemblies.
Exceptional corrosion resistance and weldability across a wide range of temperatures. Preferred for seawater service, heat exchangers, and CRA cladding applications.
Nickel-iron-chromium alloy with excellent resistance to reducing and oxidizing acids. Used in chemical processing, oil & gas handling, and acidic service environments.
Outstanding resistance to pitting, crevice corrosion, and stress corrosion cracking in highly aggressive chemical environments. Widely used in process industry and flue gas applications.
High-temperature alloy with exceptional oxidation resistance and strength at elevated temperatures. Used in heat treating equipment, gas turbine components, and industrial furnace applications.
High strength and excellent corrosion resistance in seawater, brine, and hydrofluoric acid. K500 adds age-hardening for increased mechanical properties in pump shafts and valve stems.
| Grade | UNS | W. Nr. | ASTM (bar) | Condition | YS min MPa | TS min MPa | El. min % | Key chemistry (nominal wt%) |
|---|---|---|---|---|---|---|---|---|
| Inconel 718 | N07718 | 2.4668 | B637 | Sol. treated + aged | 1035 | 1275 | 12 | Ni 50–55 · Cr 17–21 · Nb+Ta 4.75–5.5 · Mo 2.8–3.3 · Ti 0.65–1.15 |
| Inconel 625 | N06625 | 2.4856 | B446 Gr. 1 | Annealed | 414 | 827 | 30 | Ni ≥58 · Cr 20–23 · Mo 8–10 · Nb+Ta 3.15–4.15 |
| Inconel 825 | N08825 | 2.4858 | B425 | Annealed | 241 | 586 | 30 | Ni 38–46 · Cr 19.5–23.5 · Mo 2.5–3.5 · Cu 1.5–3 · Ti 0.6–1.2 |
| Hastelloy C276 | N10276 | 2.4819 | B574 | Solution annealed | 283 | 690 | 40 | Ni bal. · Mo 15–17 · Cr 14.5–16.5 · W 3–4.5 · Fe 4–7 |
| Hastelloy X | N06002 | 2.4665 | B572 | Solution annealed | 240 | 655 | 35 | Ni bal. · Cr 20.5–23 · Fe 17–20 · Mo 8–10 · Co 0.5–2.5 |
| Monel 400 | N04400 | 2.4360 | B164 | Annealed | 193 | 483 | 35 | Ni ≥63 · Cu 28–34 · Fe ≤2.5 |
| Monel K500 | N05500 | 2.4375 | B865 | Age hardened | 690 | 965 | 20 | Ni ≥63 · Cu 27–33 · Al 2.3–3.15 · Ti 0.35–0.85 |
Reference only. Values are typical specification minimums for bar product in the stated condition. The governing requirements are always the ASTM/ASME edition, product form and supplementary conditions on your purchase order — verify against the EN 10204 3.1 certificate at receipt. NACE MR0175 service imposes additional hardness and condition limits (e.g. Inconel 718 at 40 HRC max).
Wear, erosion, and galling resistance for trim and hardfacing applications. Critical for control valve trim, pump components, and industrial wear surfaces operating under aggressive conditions.
The most widely specified cobalt alloy for valve seat and trim applications. Excellent balance of hardness, wear resistance, and corrosion resistance across a broad temperature range.
Higher hardness variant for applications requiring superior abrasion resistance. Used where sliding wear under high loads is the primary failure mechanism.
Mo-bearing grade with enhanced corrosion resistance in acidic and caustic environments. Lower carbon content than Grade 6 — suitable for applications combining wear and chemical attack.
| Grade | System | Hardness (typ.) | Nominal chemistry (wt%) | Primary selection driver | Typical service |
|---|---|---|---|---|---|
| Stellite 6 | Co-Cr-W | 38–43 HRC | Co bal. · Cr 28–32 · W 3.5–5.5 · C 0.9–1.4 | Balanced wear + corrosion resistance | Valve seats, stems and trim to ~800°C |
| Stellite 12 | Co-Cr-W | 45–50 HRC | Co bal. · Cr 29–31 · W 7.5–9.5 · C 1.4–1.85 | Higher hardness, abrasion resistance | Sliding wear under high load |
| Stellite 21 | Co-Cr-Mo | 28–35 HRC work-hardens in service | Co bal. · Cr 26–29 · Mo 4.5–6 · Ni 2–3 · C 0.2–0.35 | Corrosion resistance + galling resistance | Trim in acidic / caustic chemical service |
Reference only. Hardness of hardfacing deposits depends on welding process, number of layers and dilution from the substrate — specify the required deposit hardness and test location on the purchase order, and confirm against the test certificate.
High-strength, corrosion-resistant stainless steels for aggressive oil & gas and process environments. Specification discipline is critical — ferrite balance, PREN, and heat treatment condition are non-negotiable.
The most widely used duplex grade — balanced austenite-ferrite microstructure offering high strength and excellent chloride corrosion resistance. Preferred for offshore, desalination, and process applications.
High PREN grade for the most aggressive chloride and seawater environments. Significantly higher corrosion resistance than standard duplex, with superior mechanical properties.
High alloy super duplex with tungsten addition for enhanced pitting and crevice corrosion resistance. Used in aggressive offshore and chemical process environments.
| Grade | UNS | W. Nr. | PREN | YS min MPa | TS min MPa | El. min % | Key chemistry (nominal wt%) |
|---|---|---|---|---|---|---|---|
| Duplex 2205 | S32205 | 1.4462 | ≥35 | 450 | 655 | 25 | Cr 22–23 · Ni 4.5–6.5 · Mo 3–3.5 · N 0.14–0.20 |
| Super Duplex 2507 | S32750 | 1.4410 | ≥43 | 550 | 800 | 15 | Cr 24–26 · Ni 6–8 · Mo 3–5 · N 0.24–0.32 |
| Zeron 100 | S32760 | 1.4501 | ≥40 | 550 | 750 | 25 | Cr 24–26 · Ni 6–8 · Mo 3–4 · W 0.5–1 · Cu 0.5–1 · N 0.2–0.3 |
Reference only. PREN = %Cr + 3.3×(%Mo + 0.5×%W) + 16×%N, calculated from the actual heat chemistry on the 3.1 certificate — not from nominal values. Confirm solution-annealing condition, ferrite content (typically 40–60%) and any required corrosion testing (e.g. ASTM A923 / G48) on the purchase order.
Available forms subject to grade and stock confirmation. Contact us with your specific requirement.
Applications are shown alongside product families so buyers can connect alloy selection with common service conditions and release checks.
Trim, stems, seats, sleeves and hardfaced parts in corrosive, erosive and high-pressure service.
Wellhead, downhole, subsea and process equipment requiring CRA selection, sour-service awareness and traceability.
Process equipment exposed to acids, caustics, chlorides and mixed chemical streams.
Seawater, brine, desalination and offshore hardware where chloride corrosion resistance is central to the specification.
Furnace hardware, heat-treatment fixtures and hot process components requiring oxidation resistance and strength retention.
Shafts, sleeves, impellers, seal faces and wear parts where corrosion resistance and mechanical stability both matter.
Grade · Form · Size · Quantity · Condition · Standard · Testing · Delivery timeline. We respond with a technical-first approach.
Understand how we verify documentation, cross-check MTCs, and manage supply risk for critical applications.