ASTM A744 CN7M yra lietinis, daug nikelio, molibdenas- and copper-bearing austenitic stainless alloy engineered for aggressive chemical service—notably sulfuric and other reducing acids, chloride-bearing process streams and mixed acid duties.
Its combination of high Ni, Kr, Mo and Cu yields superior resistance to localized corrosion, good ductility and reliable castability for complex geometries (siurblio kūnai, vožtuvai, jungiamosios detalės).
This expanded guide provides in-depth metallurgy, design and fabrication guidance, inspection and procurement checklists, failure-mode analysis, and selection decision rules so engineers and procurement professionals can specify, buy and deploy CN7M castings with confidence.
1. Kas yra ASTM A744 CN7M nerūdijantis plienas
CN7M is a high-nickel, chromium–molybdenum, copper-bearing austenitic cast Nerūdijantis plienas belonging to the Alloy-20 family.
It is specifically engineered for severe chemical environments, particularly those involving sulfuric acid, mixed acids, and other reducing media where conventional 300-series stainless steels show rapid corrosion.
As a cast alloy specified under ASTM A744, CN7M is widely used for pressure-containing and corrosion-critical components such as pump casings, vožtuvo kūnai, sparnuotojai, jungiamosios detalės, and reactor hardware.
Its high nickel content ensures a fully austenitic, non-magnetic structure with excellent toughness, while chromium promotes passive film stability.
Molybdenum improves resistance to pitting and crevice corrosion in chloride-containing environments, and copper significantly enhances performance in sulfuric acid and other reducing acids.
CN7M effectively bridges the performance gap between standard austenitic stainless steels (Pvz., CF8M / 316 liejiniai) and more expensive nickel-base alloys.
This balance of corrosion resistance, liejamumas, Mechaninis vientisumas, and cost efficiency makes it a preferred material in chemical processing, naftos chemija, fertilizer, Farmacija, and pulp-and-paper industries.
Standard designations & global equivalents
| Standartinė sistema / regionas | Aktoriai / Wrought form | Paskyrimas |
| ASTM / ASME (JAV) | Aktoriai | ASTM A744 Grade CN7M (also referenced in ASTM A743 / A351 for cast corrosion-resistant steels) |
| JAV | Aktoriai | UNS N08007 |
| ASTM / ASME (JAV) | Wrought equivalent | Lydinys 20 / ASTM A182 F20 |
| JAV | NUSTATYTAS | UNS N08020 |
| Į / Nuo (Europa) | Approximate equivalent | Į 1.4536 (Alloy-20 class reference) |
| JIS (Japonija) | Cast alloy reference | Often cross-referenced as SCS-23 arba GX5NiCrCuMo 29-21 (application-dependent) |
2. Typical chemical composition and metallurgical role
Values below are representative engineering ranges for CN7M castings supplied in the solution-annealed condition.
| Elementas | Representative wt.% | Primary metallurgical / corrosion role |
| C (Anglies) | ≤ 0.07 | Strength contribution; controlled to limit carbide precipitation and preserve corrosion resistance. |
| Kr (Chromas) | 19.0 - 22.0 | Promotes durable passive Cr₂O₃ film; base of corrosion resistance. |
| Į (Nikelis) | 27.5 - 30.5 | Austenito stabilizatorius; improves ductility and general corrosion performance. |
| MO (Molibdenas) | 2.0 - 3.0 | Raises pitting and crevice corrosion resistance; important with chlorides. |
Cu (Vario) |
3.0 - 4.0 | Enhances resistance to sulfuric and other reducing acids; important design feature. |
| Ir (Silicis) | ≤ 1.5 | Deoxidation and oxidation resistance. |
| Mn (Manganas) | ≤ 1.5 | Processing aid and minor austenite stabilizer. |
| P (Fosforas) | ≤ 0.04 | Impurity control for toughness. |
| S (Sieros) | ≤ 0.04 | Kept low to avoid casting defects and reduce embrittlement risk. |
| Fe (Lygintuvas) | Pusiausvyra | Matricos elementas; remaining content after alloying additions. |
3. Microstructure and metallurgical behaviour — in depth
- Austenitic matrix: High Ni content ensures a fully austenitic γ-matrix at room temperature with excellent toughness and ductility. That microstructure is the base for CN7M’s mechanical and corrosion properties.
- Carbides and precipitation: Carbon is deliberately limited; Tačiau, improper casting, slow cooling or post-casting thermal exposures can precipitate chromium carbides at grain boundaries, locally depleting chromium and reducing corrosion resistance.
A solution anneal dissolves such carbides. - Intermetalinės fazės (Sigma, Chi): Long dwell times in the 600–900 °C range can precipitate sigma (a) and associated phases in high-alloy austenitics.
These phases embrittle and lower corrosion resistance. Avoid prolonged service in that temperature band or perform qualification testing if exposure is inevitable. - Role of copper and molybdenum: Cu enhances resistance to sulfuric and other reducing acids by stabilizing surface chemistry under reducing conditions; Mo boosts local-attack resistance in chloride-bearing media.
The synergistic effect produces an alloy that resists a broader set of chemistries than plain 316L. - Cast microstructural heterogeneity: Cast components may show dendritic segregation and microsegregation at the microscopic scale.
Good foundry practice—adequate melt treatment, filtravimas, homogenization and proper heat treatment—is required to minimize heterogeneities that compromise corrosion or mechanical integrity.
4. Mechanical properties — ASTM A744 CN7M (aktoriai, Sprendimas išgrynintas)
The values below are representative engineering ranges for CN7M castings supplied solution-annealed and quenched.
Cast mechanical properties vary with section thickness, liejyklos praktika, heat treatment and post-cast processing.
| Nuosavybė | Representative value (typ./range) |
| 0.2% įrodymas (apytiksliai. derlius) | ≈ 170 - 300 MPA (≈ 25 - 44 ksi) — use the heat-specific value from the MTR for design |
| Tempimo stiprumas (Rm, UTS) | ≈ 425 - 650 MPA (≈ 62 - 94 ksi) — depend on section and casting quality |
| Pailgėjimas lūžio metu (A, %) | ≈ 20 - 40% (typical castings ~30–40% for well-made, solution-annealed parts; lower for thick/segregated sections) |
Brinelio kietumas (Hb) |
≈ 150 - 260 Hb (varies with section, heat treatment and degree of cold work) |
| Rockwell hardness (HRB) | ≈ 70 - 100 HRB (corresponding to HB range above) |
| Tamprumo modulis (E) | ≈ 190 - 200 GPA (≈ 28,000 - 29,000 ksi) — use ≈193 GPa if a single value is needed |
| Šlyties modulis (G) | ≈ 75 - 80 GPA |
| Puasono koeficientas (n) | ≈ 0.27 - 0.30 |
| Tankis | ≈ 7.95 - 8.05 g · cm⁻³ (≈ 7950–8050 kg·m⁻³) |
5. Corrosion Performance of CN7M Stainless Steel
Stipriosios pusės
- Sulfuric and reducing acids: Superior performance relative to 300-series stainless due to Cu and Ni—CN7M is commonly selected where sulfuric acid contact is routine.
- Mixed acid and process chemistries: Good overall resistance to nitric, phosphoric and various organics with appropriate concentration/temperature limits.
- Patobulintas pasipriešinimas: Mo provides raised pitting resistance compared with low-Mo austenitics; useful where chlorides are present at moderate levels.
Apribojimai & application boundaries
- Severe chloride immersion / purslų zonos: CN7M is better than 304 but in aggressive seawater immersion or splash zones duplex stainless steels or copper-nickel alloys may outperform CN7M in long-term service.
- SCC rizika: In high tensile stress + Chloridas + elevated temperature combinations, stress-corrosion cracking remains a possibility; duplex or super-austenitics may be preferred for SCC-critical duties.
- High-temperature embrittlement: Avoid continuous service in the 600–900 °C band due to risk of sigma phase formation.
6. Casting Characteristics of CN7M Stainless Steel
Liejimo procesai
CN7M is primarily produced via sand casting and investment casting, with process parameters tailored to avoid segregation and defects:
- Smėlio liejimas: Used for large components (vožtuvo kūnai, siurblių korpusai) with wall thickness ≥5 mm.
Resin-coated sand (Fenolio derva) is preferred for dimensional accuracy (tolerance ±0.2–0.5 mm) ir paviršiaus apdaila (Ra 3.2–6.3 μm). - Investicijų liejimas: For precision components (maži vožtuvai, jungiamosios detalės) with thin walls (≥2 mm), achieving surface finish Ra 1.6–3.2 μm and tolerance ±0.1–0.3 mm.
Foundry Controls
- Tirpimas & charge control: Use vacuum induction melting or controlled air/argon practice where possible to minimize dissolved gases and inclusion content. Strict control of alloy additions and deoxidation is essential.
- Filtration and gating: Ceramic filtration and well-designed gating minimize inclusions and porosity; small entrapped gases in pump impellers or valve seats are a common root cause of failure.
- Pouring temperature and solidification: Control pouring temperature to minimize shrinkage cavities and to promote directional solidification toward risers. Provide adequate risering for heavy sections.
- Terminis apdorojimas: Specify a solution anneal at the foundry-recommended temperature (typical cast austenitics heat to ≈1100–1120 °C, hold and quench) to dissolve segregated carbides and reset microstructure.
Provide quench method (water/air/oil) per foundry recommendations to control distortion.
Karštas izostatinis presavimas (Hip) and other densification options
- Hip naudojimas: for the most critical pressure parts susceptible to shrinkage porosity or sub-surface inclusions, HIP can close internal porosity and improve fatigue life and corrosion integrity.
HIP adds cost but is a valuable option for highly stressed or safety-critical components. - Apribojimai: HIP requires that the part geometry and tolerances accommodate the process; subsequent heat treatment and machining may be necessary.
Machining allowance and dimensional control
- Apdirbimas allowance: specify realistic machining stock depending on casting finish and critical features: typical roughing allowance = 2–6 mm (0.08–0.25 in) for general surfaces;
critical sealing faces / machined flanges = 0.5–2 mm after finish grinding as negotiated with the foundry. Thinner allowances may be specified for precision investment castings. - Matmenų nuokrypiai: castings have larger tolerances than forged/wrought parts; specify critical dimensions to be machined and provide true-position controls for features that must align. Use first-piece inspection and establish FAI criteria.
Paviršiaus apdaila, cleaning and passivation
- Paviršiaus valymas: remove sand, šlakas, scale and contaminants by shot-blast, pickling or mechanical cleaning before inspection and machining.
- Descale & marinavimas: for corrosion-sensitive applications, pickling removes discoloration and heat tint; follow with neutralization and passivation.
- Pasyvavimas: apply citric or nitric passivation processes per specification to restore the chromium-oxide passive film, especially on welded or pickled surfaces.
Electropolishing can be used for sanitary applications to improve surface finish and reduce crevice sites.
7. Suvirinimas, joining and repair guidance
- Suvirinamumas: CN7M is weldable using matching or recommended filler metals engineered for high-Ni, Cu and Mo alloys. Follow qualified WPS/WPQ for each joint geometry and base-metal thickness.
- Užpildo metalo pasirinkimas: Use filler alloys with comparable corrosion performance—match Ni/Cr/Mo/Cu balance to avoid galvanic or metallurgical mismatch.
Do not use generic 316 filler if process chemistry demands alloy-20-class corrosion resistance. - Heat input control: Minimize excessive interpass temperatures and heat input to reduce grain growth and avoid local precipitation of deleterious phases in heat-affected zones (Haz).
- Terminis gydymas po suvirinimo (Pwht): If the weld is in a critical pressure-containing area or in severe corrosive service, consider solution anneal of the welded assembly if feasible—coordinate with design for distortion management.
Alternatyviai, use CN7M/Alloy-20 compatible filler metal and limit heat so the HAZ retains acceptable corrosion resistance without PWHT. - Weld inspection: Use dye-penetrant, MT/PT for surface defects and radiography/UT for volumetric assurance where required.
8. Industrial Applications of ASTM A744 CN7M Stainless Steel
CN7M’s unique combination of corrosion resistance, liejamumas, and cost-effectiveness makes it indispensable in industries requiring reliable performance in harsh corrosive environments:
Cheminė & Petrochemical Industry
Core applications: Sulfuric acid storage tanks, Cheminiai reaktoriai, Šilumokaičiai, and piping for handling acids (H₂so₄, H₃po₄), organic solvents, and sour gas (H₂s).
Pagrindinis pranašumas: Complies with NACE MR0175 for sour service, with a service life 3–5 times longer than 316L in acid environments.
Siurblys & Valve Manufacturing
Core applications: Vožtuvo kūnai, apdaila, Siurblio sparnuotės, and casings for chemical process pumps and control valves.
Pagrindinis pranašumas: Castability enables complex flow geometries; corrosion resistance minimizes wear and leakage in aggressive media.
Maistas & Pharmaceutical Industry
Core applications: Processing equipment for acidic foods (Citrusai, Actas), pharmaceutical reactors, and cleanroom components.
Pagrindinis pranašumas: Netoksiškas, Lengva valyti, and resistant to food acids and sanitizing agents—complies with FDA 21 CFR dalis 177 ir ISO 10993.
Vandens valymas & Gėlinimas
Core applications: Reverse osmosis membranes, brine handling equipment, and wastewater treatment tanks.
Pagrindinis pranašumas: Resistance to chloride-induced pitting and crevice corrosion in high-salinity environments.
Other Applications
- Energijos generavimas: Išmetamųjų dujų desulfurizacija (FGD) sistemos, where resistance to sulfur dioxide and acidic condensates is critical.
- Jūrų pramonė: Jūros platformos komponentai (vožtuvai, jungiamosios detalės) exposed to seawater and sour crude.
- Plastikai & Rubber Manufacturing: Reactors for polymer synthesis, resistant to monomers and catalysts.
9. Privalumai & Apribojimai
Core Advantages of ASTM A744 CN7M Stainless Steel
- Superior sulfuric acid resistance: Outperforms conventional stainless steels, reducing maintenance and replacement costs in acid service.
- Balanced corrosion protection: Resists oxidizing/reducing acids, Chloridai, and SCC—versatile for mixed-corrosive environments.
- Puikus nusiteikimas: Suitable for complex-shaped components (vožtuvai, Siurbliai) that are difficult to fabricate via wrought processes.
- Ekonominis efektyvumas: 30–40% cheaper than nickel-based alloys (Pvz., Hastelloy C276) while offering comparable corrosion resistance in moderate environments.
- Nb stabilization: Eliminates IGC risk during welding/heat treatment, reducing post-processing costs.
Key Limitations of ASTM A744 CN7M Stainless Steel
- Higher cost than 316L: 2–3 times more expensive due to high Ni/Mo/Cu content, limiting use in non-critical applications.
- Vidutinis stiprumas: Tempimo stiprumas (425–480 MPa) is lower than duplex stainless steels (Pvz., 2205: 600–800 MPA), requiring thicker sections for structural loads.
- Dirbkite sukietėjimą: Prone to work hardening during machining, requiring specialized tools and slower cutting speeds.
- Limited high-temperature resistance: Not suitable for continuous service above 800°C (oxidation and NbC coarsening); use Hastelloy C276 for ultra-high temperatures.
- Residual element sensitivity: Trace Sn, Pb, or As can cause cracking, requiring strict raw material control.
10. Lyginamoji analizė: CN7M vs. Similar Alloys
| Aspektas / Lydinys | CN7M (ASTM A744, cast Alloy-20 family) | 316L (JAV S31603) | Duplex 2205 (S32205) | Nickel-base alloys (Pvz., C-276 class) |
| Metallurgical type | Fully austenitic cast stainless steel | Austenitinis nerūdijantis plienas | Ferritic–austenitic duplex stainless steel | Fully austenitic nickel-base alloys |
| Key alloying features | High Ni, Kr, MO (~ 2–3%), Cu (~3–4%) | Cr ~17%, ~ 10–14%, Mo ~2–3% | Cr ~22%, Ni ~4–6%, Mo ~3%, N added | Very high Ni, Kr, MO; tailored chemistry |
| Primary corrosion strengths | Puikus pasipriešinimas sulfuric and reducing acids; Geras bendras atsparumas korozijai | Good general corrosion; Vidutinis pasipriešinimas duobėms | Puikus atsparumas duobėms, įtrūkimų korozija, and chloride SCC | Outstanding resistance to mixed, oksiduojantis, and reducing media |
| Sulfuric acid resistance | Very strong (core design objective) | Ribotas; not recommended for concentrated sulfuric acid | Vidutinis; not optimized for sulfuric acid service | Puiku, including hot and concentrated acids |
Duobė / įtrūkimų korozija |
Gerai, improved by Mo | Vidutinis; lower than CN7M in aggressive acids | Labai aukštas, ypač chlorido aplinkoje | Puiku, superior in severe conditions |
| Chloride SCC resistance | Better than standard austenitics but not immune | Susceptible at elevated temperature and stress | Very high resistance | Puiku |
| Mechaninis stiprumas (tipiškas) | Vidutinis stiprumas; good ductility for a cast alloy | Vidutinis stiprumas; Geras formatavimas | Didelė jėga (yield roughly 2× austenitic steels) | Kintamasis; strength depends on alloy design |
| Fabrication form | Cast only (Sudėtingos geometrijos) | NUSTATYTAS (plokštelė, vamzdis, Baras, FOUPLINGS) | NUSTATYTAS (plokštelė, vamzdis, FOUPLINGS) | Wrought or cast, priklausomai nuo lydinio |
Suvirinamumas |
Good with matching filler; solution anneal recommended for severe corrosion service | Puikus suvirinamumas (low carbon grade) | Good but requires strict heat input and phase balance control | Good with qualified procedures; fillers critical |
| Dimensional complexity | Puiku – ideal for intricate pump/valve shapes | Vidutinis | Vidutinis | Vidutinis |
| Tipiškos programos | Siurblio korpusai, vožtuvo kūnai, sparnuotojai, acid-handling castings | General process piping, cisternos, food/pharma equipment | Jūroje, gėlinimas, chloride-rich systems | Extreme chemical reactors, high-severity process equipment |
| Best use case | Kada Laidiniai komponentai must withstand sulfuric or reducing acids | Cost-effective solution for general corrosion service | Aukšto stiprumo, chloride-dominated environments | When corrosion severity exceeds stainless steel limits |
11. Išvada
ASTM A744 CN7M stainless steel stands as a premier super austenitic cast alloy, uniquely optimized for harsh corrosive environments—particularly sulfuric acid service.
Its balanced composition of high nickel, Chromas, molibdenas, ir varis, combined with niobium stabilization, delivers exceptional corrosion resistance, liejamumas, ir mechaninis vientisumas, filling the performance-cost gap between conventional stainless steels and high-cost nickel-based alloys.
While CN7M faces limitations in strength, Kaina, ir aukštos temperatūros aptarnavimas, ongoing innovations in microalloying, Priedinė gamyba, and green casting are expanding its application boundaries.
For engineers and material selectors, CN7M remains the optimal choice for cast components in chemical processing, pump/valve manufacturing, and acid-centric industries, where reliability and corrosion resistance are non-negotiable.
DUK
Can CN7M stainless steel be welded without post-heat treatment?
Welding is possible, Bet solution annealing is recommended for critical corrosion service to restore the passive layer.
Is CN7M stainless steel suitable for chloride-rich environments?
Moderate performance; for high chloride SCC resistance, Duplex 2205 or nickel-base alloys gali būti teikiama pirmenybė.
Can CN7M replace 316L stainless steel in sulfuric acid service?
Taip, CN7M outperforms 316L in sulfuric and reducing acid conditions, especially in cast components.
What are typical casting sizes and shapes for CN7M stainless steel?
Siurbliai, vožtuvai, sparnuotojai, and fittings with Sudėtingos geometrijos, Plonos sienos, and internal passages are common.
