If you need a stainless steel that excels in harsh environments—from marine settings to chemical plants—EN 1.4401 stainless steel is the solution. As the European equivalent of AISI 316, its molybdenum content delivers superior corrosion resistance, making it a top choice for demanding industries. This guide breaks down everything you need to know, from specs to real-world applications.
1. EN 1.4401 Stainless Steel: Overview & Key Specifications
Let’s start with the fundamentals of EN 1.4401 stainless steel—its composition, standards, and core properties.
Chemical Composition
The EN 1.4401 chemical composition is what sets it apart. It contains 16–18% chromium (corrosion resistance), 10–14% nickel (austenitic structure), and 2–3% molybdenum (enhanced chloride resistance). Small amounts of manganese (max 2.0%) and silicon (max 1.0%) round out the blend, creating a metal that balances strength and durability.
Industry Standards & Equivalents
EN 1.4401 adheres to strict global standards for consistency:
- 1.4401 AISI 316 equivalent: It’s the direct European counterpart to AISI 316, so they’re interchangeable in most projects.
- 1.4401 UNS S31600: The Unified Numbering System identifier, used in North America.
- 1.4401 EN 10088-2: European standard for flat products (sheets/plates), and 1.4401 ASTM A240: ASTM standard for plates/sheets.
Physical & Mechanical Properties
Below is a table of critical properties that make EN 1.4401 stainless steel ideal for harsh environments:
| Property | Value |
|---|---|
| 1.4401 density | 8.0 g/cm³ |
| 1.4401 melting point | 1400 °C |
| 1.4401 yield strength | ≥ 220 MPa |
| 1.4401 tensile strength | 520–720 MPa |
| 1.4401 Brinell hardness | ≤ 215 HB |
| 1.4401 PREN 23–25 | Pitting Resistance Equivalent Number (higher = better chloride resistance) |
| 1.4401 austenitic Cr-Ni-Mo grade | Non-magnetic, with high ductility |
Example: A marine hardware manufacturer uses EN 1.4401 stainless steel for boat cleats. Its PREN 23–25 ensures resistance to saltwater corrosion, keeping cleats rust-free for 10+ years.
2. Corrosion Resistance & Environmental Performance
EN 1.4401 stainless steel’s greatest strength is its exceptional corrosion resistance—especially in chloride-rich environments.
Key Corrosion Behaviors
- 1.4401 pitting corrosion resistance: Molybdenum creates a protective layer that prevents pitting in chloride environments (e.g., saltwater, pool water).
- 1.4401 marine environment performance: Excellent for full submersion in seawater—used for boat hulls, propeller shafts, and dock hardware.
- 1.4401 sulfuric acid compatibility: Resists dilute sulfuric acid (up to 10% concentration) at room temperature, making it suitable for chemical tanks.
- 1.4401 nitric acid resistance: Handles dilute nitric acid well, ideal for food processing equipment that uses mild cleaning chemicals.
Critical Corrosion Considerations
- 1.4401 crevice corrosion threshold: Avoid tight crevices (e.g., uncoated bolts) in wet areas—use sealants to prevent moisture trapping.
- 1.4401 chloride stress corrosion cracking: Low risk even in high-chloride settings, far better than EN 1.4301 (AISI 304).
- 1.4401 intergranular corrosion after welding: Minimal risk, but post-weld passivation further reduces any potential issues.
- 1.4401 vs 1.4404 corrosion comparison: EN 1.4404 (AISI 316L) has lower carbon (better intergranular corrosion resistance), but EN 1.4401 offers similar general and chloride corrosion resistance.
Case Study: A desalination plant uses EN 1.4401 stainless steel for reverse osmosis membranes. The metal resists the high-salt water, with a 1.4401 seawater corrosion rate of less than 0.1 mm/year—ensuring the plant operates efficiently for decades.
3. High-Temperature & Low-Temperature Properties
EN 1.4401 stainless steel performs well across a wide temperature range, from cryogenic to high heat.
High-Temperature Performance
- 1.4401 high-temperature strength: Maintains strength up to 800 °C, making it suitable for heat exchanger tubes and oven parts.
- 1.4401 oxidation resistance up to 925 °C intermittent: Resists scaling when used intermittently at high temperatures (e.g., furnace components).
- 1.4401 continuous service limit: Safe for continuous use up to 750 °C—avoid higher temps for long periods to prevent strength loss.
- 1.4401 creep rupture data: At 700 °C and 100 MPa stress, it resists creep (slow deformation) for over 10,000 hours.
Low-Temperature Performance
- 1.4401 low-temperature toughness: Remains ductile even at -196 °C (liquid nitrogen temperature), used for cryogenic vessels.
- 1.4401 impact energy at -196 °C: Absorbs over 50 J of energy, preventing brittle fracture in cold environments.
Thermal Properties
- 1.4401 thermal expansion coefficient: 16.0 × 10⁻⁶/°C (20–100 °C) — important for designing parts that handle temperature changes.
- 1.4401 thermal conductivity: 16.2 W/(m·K) at 100 °C — efficient at transferring heat, ideal for heat exchangers.
Example: A chemical plant uses EN 1.4401 stainless steel for high-temperature reactors. The metal’s oxidation resistance up to 925 °C intermittent handles the reactor’s 750 °C operating temperature without scaling.
4. Heat Treatment & Microstructure Stability
Proper heat treatment ensures EN 1.4401 stainless steel maintains its corrosion resistance and strength.
Common Heat Treatment Processes
| Process | Temperature & Method | Purpose |
|---|---|---|
| 1.4401 solution annealing 1010–1120 °C | 1010–1120 °C, followed by 1.4401 water quench or rapid air cool | Dissolves carbides, restores full corrosion resistance |
| 1.4401 residual stress relief | 300–500 °C, slow cool | Reduces stress from welding or cold working |
| 1.4401 hot working range 1150–850 °C | 1150–850 °C | Shapes the metal (forging, rolling) without cracking |
Critical Considerations
- 1.4401 carbide precipitation range: Avoid holding at 450–850 °C for long—carbides form, reducing corrosion resistance.
- 1.4401 sensitization control: Solution annealing prevents sensitization (intergranular corrosion risk) after welding.
- 1.4401 austenitic grain size ASTM 5–8: Controlled heating keeps grains small, balancing strength and ductility.
- 1.4401 sigma phase formation: Low risk at temperatures below 700 °C—avoid prolonged exposure to 700–900 °C to prevent brittle sigma phase.
Case Study: A heat exchanger manufacturer uses EN 1.4401 stainless steel for tubes. They solution anneal at 1050 °C and water quench to ensure carbide precipitation is avoided—tubes resist corrosion from hot coolants for 15+ years.
5. Welding, Fabrication & Machining Guidelines
EN 1.4401 stainless steel is easy to weld and fabricate, making it suitable for complex parts.
Welding Tips
- 1.4401 weldability rating: Excellent (rated 9/10)—works with TIG, MIG, and stick welding.
- 1.4401 no preheat required: Saves time compared to martensitic grades (e.g., 410).
- 1.4401 filler metal ER316L: Low-carbon filler matches the base metal’s corrosion resistance.
- 1.4401 interpass temperature 150 °C max: Prevents overheating and carbide formation.
- 1.4401 post-weld cleaning passivation: Nitric acid treatment boosts corrosion resistance by 30–40%.
Machining & Fabrication
- 1.4401 machining speeds and feeds: Use 120–200 m/min (turning) and 0.1–0.25 mm/rev—slower than EN 1.4301 due to molybdenum.
- 1.4401 tool life with coated carbide: Coated carbide tools (e.g., TiAlN) last 2–3x longer than uncoated tools.
- 1.4401 formability deep drawing: Good—its austenitic structure lets it be drawn into shapes like chemical tank components.
- 1.4401 distortion control techniques: Use balanced welding sequences and clamps to minimize warping.
Example: A brewery uses EN 1.4401 stainless steel for beer tanks. They weld tank seams with ER316L filler and follow interpass temperature 150 °C max—tanks resist corrosion from beer acids and cleaning chemicals.
6. Product Forms, Sizes & Supply Chain
EN 1.4401 stainless steel is available in diverse forms to fit any project.
Common Product Forms
- 1.4401 stainless steel plate thicknesses: 3–200 mm (chemical reactors, structural parts).
- 1.4401 sheet gauge chart: 26 gauge (0.45 mm) to 8 gauge (4.0 mm) (food equipment, architectural cladding).
- 1.4401 seamless pipe EN 10216-5: Sizes ½–24 inches (desalination plants, chemical piping).
- 1.4401 welded tube EN 10217-7: Sizes ½–12 inches (plumbing, brewery lines).
- 1.4401 round bar stock: Diameters 5–300 mm (fasteners, marine hardware).
Supply Chain Tips
- 1.4401 angle iron sizes: 20x20x3 mm to 100x100x10 mm (structural supports in coastal buildings).
- 1.4401 flat bar tolerances: ±0.1 mm for thickness—ideal for precision parts like pharmaceutical equipment.
- 1.4401 hollow bar suppliers: Choose ISO 9001-certified suppliers for consistent wall thickness.
- 1.4401 mirror finish sheets: 0.5–5 mm thicknesses (elevator panels, decorative marine parts).
7. Industry Applications & Case Studies
EN 1.4401 stainless steel shines in industries where corrosion resistance is non-negotiable.
Key Applications
- 1.4401 marine hardware: Cleats, propeller shafts, hull components—resists saltwater corrosion.
- 1.4401 chemical process reactors: Handles acids and solvents without rusting.
- 1.4401 pharmaceutical piping: Meets strict hygiene standards and resists drug chemicals.
- 1.4401 heat exchanger tubes: Transfers heat efficiently while resisting coolant corrosion.
- 1.4401 desalination plant components: Withstands high-salt water in reverse osmosis systems.
Real-World Example: A coastal hotel uses EN 1.4401 stainless steel for outdoor railings. The railings are exposed to saltwater spray daily, but their marine environment performance keeps them rust-free—even after 8 years of coastal weather.
Yigu Technology’s Perspective on EN 1.4401 Stainless Steel
At Yigu Technology, we supply EN 1.4401 stainless steel to marine, chemical, and pharmaceutical clients. Its molybdenum-enhanced corrosion resistance makes it perfect for harsh environments, and we offer custom cuts (e.g., seamless pipe for desalination plants) with certification. For food clients, we ensure passivation meets FDA standards, and our team advises on welding parameters to maintain corrosion resistance—helping clients build durable, long-lasting products.
FAQ About EN 1.4401 Stainless Steel
- Is EN 1.4401 stainless steel magnetic?
No—its 1.4401 austenitic Cr-Ni-Mo grade structure is non-magnetic. Heavy cold working may make it slightly magnetic, but this doesn’t affect performance. - Can EN 1.4401 be used in saltwater?
Yes! Its PREN 23–25 and molybdenum content make it ideal for full seawater submersion (e.g., boat hulls, dock posts). It outperforms EN 1.4301 (AISI 304) in marine environments. - What’s the difference between EN 1.4401 and EN 1.4404?
EN 1.4404 (AISI 316L) has lower carbon (max 0.03%) than EN 1.4401 (max 0.08%), so it’s better at resisting intergranular corrosion after welding. Choose EN 1.4401 for general harsh environments, and EN 1.4404 for thick welded parts.
