Si vous avez besoin d'acier inoxydable qui résiste à l'eau salée, produits chimiques, or medical-grade hygiene, 316 acier inoxydable est l'étalon-or. Its molybdenum-enhanced formula delivers superior corrosion resistance compared to common grades like 304—making it ideal for marine, pharmaceutique, et applications industrielles. Ce guide décompose tout ce que vous devez savoir, from its chemistry to real-world use, helping you choose the right 316 grade for your project.
1. 316 Acier inoxydable: Composition chimique & Grades
316’s strength and corrosion resistance start with its precise alloy mix, and different grades (316, 316L, 316H, 316Ti) tweak this formula for specific needs.
Composition chimique clé (per ASTM/EN Standards)
| Élément | 316 (US S31600) | 316L (US S31603) | 316H (UNS S31609) | Role in Performance |
|---|---|---|---|---|
| Chrome (Croisement) | 16.0–18,0% | 16.0–18,0% | 16.0–18,0% | Forms acouche de passivation (film résistant à la rouille) |
| Nickel (Dans) | 10.0–14,0% | 10.0–14,0% | 10.0–14,0% | Stabilizes austenitic structure (non magnétique) |
| Molybdène (MO) | 2.0–3,0% | 2.0–3,0% | 2.0–3,0% | Boosts resistance to chloride corrosion (marin, produits chimiques) |
| Carbone (C) | ≤0,08% | ≤0,03% | 0.04–0,10% | 316L: Prevents weld decay; 316H: Improves high-temp strength |
| Titane (Ti) | - | - | - | 316Ti (DANS 1.4571): Stabilizes against carbide formation |
Grade Selection Tip: Choose 316L for welded parts (Par exemple, tuyaux chimiques), 316H for high-temperature equipment (Par exemple, furnace parts), and 316Ti for extreme heat (Par exemple, boiler tubes). A marine manufacturer switched from 316 to 316L for boat fittings—weld corrosion dropped by 60%.
2. 316 Acier inoxydable: Mécanique & Propriétés physiques
316’s properties balance strength, ductilité, and durability—making it versatile for structural and precision parts.
Core Mechanical & Propriétés physiques (Annealed Condition)
| Propriété | Valeur typique (316L) | Practical Impact |
|---|---|---|
| Résistance à la traction | 515 MPA (74,700 psi) | Strong enough for marine hardware (Par exemple, cleats) |
| Limite d'élasticité | 170 MPA (24,700 psi) | Resists bending in pharmaceutical tanks |
| Allongement à la pause | 40% (in 50mm) | Bends without cracking (Par exemple, forming tubing) |
| Dureté | 95 HRB (Rockwell B) / 190 BNN | Assez doux pour la machine, tough enough for wear |
| Densité | 7.98 g / cm³ | Lightweight for architectural panels |
| Modulus of Elasticity | 200 GPa (29,000 ksi) | Predictable bending for structural parts |
| Perméabilité magnétique | 1.02 μr (recuit) | Non-magnetic—safe for medical tools/electronics |
| Thermal Conductivity | 16.3 W/m·K (at 100°C) | Low heat transfer—good for heat exchangers |
High-Temp Note: 316H maintains strength up to 870°C (1,600° F), while 316L weakens above 760°C (1,400° F). A refinery uses 316H for heat exchanger tubes—they last 3x longer than 316L in high-heat conditions.
3. 316 Acier inoxydable: Résistance à la corrosion & Performance
316’s biggest advantage is its resistance to harsh environments—thanks to molybdenum. Voici comment ça fonctionne:
Corrosion Resistance Key Metrics & Performance
| Test/Metric | Résultat | What It Means for Use |
|---|---|---|
| Nombre équivalent de résistance aux piqûres (Bois) | ~31 (316L) | Far higher than 304 (PREN ~18)—Resistes piqûres dans l'eau salée |
| Salt Spray Test (ASTM B117) | 1,000+ heures (no red rust) | Won’t rust on boats, coastal buildings, or offshore platforms |
| Chloride Stress Corrosion Cracking (SCC) | Resistant up to 60°C (140° F) | Safe for swimming pool equipment, marine pipes |
| ASTM G48 Method A (pitting test) | Col 72 hours at 50°C | Resists acids (Par exemple, sulfuric acid in chemical plants) |
Vrai exemple: A coastal hotel used 316 stainless steel for outdoor railings. Après 10 years of salt spray exposure, the railings showed no rust—unlike 304 railings at a nearby hotel, which needed replacement after 5 années.
4. 316 Acier inoxydable: Soudage, Fabrication & Machinabilité
316 is weldable and fabricable, but proper techniques prevent corrosion and weakness.
Lignes directrices de soudage
- Métal de remplissage: Use ER316L (for 316L) or ER316 (pour 316)—avoids carbon buildup.
- Méthode: TIG welding is best for clean, corrosion-resistant welds; MIG works for thick parts.
- Post-Weld: 316L rarely needs traitement thermique post-influencé (Pwht) (low carbon prevents weld decay); 316 may need PWHT for thick sections.
Machinability Tips
- Rating: 40% (contre. 100% for B1112 steel)—slower than 303 but better than 304.
- Paramètres: Utiliser des outils en carbure, cutting speed 30–40 m/min, and soluble oil coolant (prevents galling).
- Vie de l'outil: Expect 20–30% longer tool life than 304 (molybdenum reduces tool wear).
Fabrication Note: Cold forming (Par exemple, flexion) is easy—use a radius of 1.5x material thickness to avoid cracking. A HVAC manufacturer forms 316L tubing into coils—no cracking, even with tight bends.
5. 316 Acier inoxydable: Surface Finishes & Aesthetic Options
316’s finishes balance aesthetics and functionality—critical for architectural or consumer products.
Common Surface Finishes
| Finish Type | Description | Cas d'utilisation |
|---|---|---|
| 2B Mill Finish | Lisse, mat (Ra 0.4–1.6 µm) | Pharmaceutical tanks, équipement industriel |
| #4 Finition brossée | Fine linear texture (RA 0,8 à 1,6 µm) | Appareils, handrails, Cas de surveillance |
| Mirror Polish | High-gloss (Ra ≤0.1 µm) | Revêtement architectural, luxury furniture |
| Bead-Blasted Finish | Uniform matte texture | Matériel marin (hides scratches) |
| Electropolished | Ultra-smooth, hygienic | Implants chirurgicaux, équipement de transformation des aliments |
Pour la pointe: Electropolishing 316L improves corrosion resistance by 30%—a medical device maker uses it for surgical tools to meet FDA hygiene standards.
6. 316 Acier inoxydable: Forms, Tailles & Product Standards
316 comes in multiple forms to fit any project, with strict standards ensuring consistency.
Common Forms & Normes
| Formulaire | Tailles typiques | Normes clés |
|---|---|---|
| Feuilles / plaques | 0.5–50 mm d'épaisseur; 1x2m à 3x6m | ASTM A240, DANS 10088-2 |
| Barres rondes | 5–300 mm de diamètre; 1–6 m de longueur | ASTM A276, DANS 10278 |
| Pipes/Tubing | 6–600 mm de; sans couture / soudé | ASTM A312 (tuyaux), ASTM A269 (tubing) |
| Angles/Channels | 20x20mm to 200x200mm | ASTM A480, DANS 10056-1 |
Tolerance Note: DANS 10278 specifies ±0.1mm tolerance for 316 round bars—critical for precision machining (Par exemple, gear shafts).
7. 316 Acier inoxydable: Applications de l'industrie & Use-Cases
316’s versatility makes it indispensable in industries where corrosion resistance is non-negotiable.
Top applications
- Marin: Boat fittings, propeller shafts, offshore platform railings (resists saltwater).
- Pharmaceutique: Stainless steel tanks, équipement de mélange (hygienic, résistant aux produits chimiques).
- Food/Beverage: Brewery piping, dairy tanks (resists acids, facile à nettoyer).
- Médical: Implants chirurgicaux, instrument trays (non magnétique, biocompatible).
- Traitement chimique: Heat exchangers, corps de valve (resists sulfuric/nitric acid).
- Architecture: Coastal building cladding, outdoor sculptures (no rust in salt spray).
Étude de cas: Une brasserie est passée de 304 to 316L piping for beer lines. The 316L piping resisted beer’s acidic content—cleaning frequency dropped from monthly to quarterly.
8. 316 Acier inoxydable: Essai, Certification & Contrôle de qualité
To ensure 316 meets specs, rigorous testing and certification are critical.
Key Quality Checks
- PMI Testing: Positive Material Identification (XRF) verifies alloy composition (Par exemple, molybdenum content).
- MTR: Mill Test Report confirms mechanical properties (résistance à la traction, dureté) and chemistry.
- DANS 10204 3.1 Certificate: Ensures the steel meets order specs (required for industrial projects).
- NDT: Ultrasonic testing (UT) detects internal defects in pipes/bars.
Compliance Tip: Always ask for ISO 9001 certification from suppliers—ensures consistent quality.
9. 316 Acier inoxydable: Coût, Prix & Market Trends
316 coûte plus que 304 but delivers long-term value in harsh environments.
Ventilation des coûts (2024 Estimations)
| Product | 316 Prix par kg | 304 Prix par kg | Price Differential |
|---|---|---|---|
| Feuilles (2B finish) | $5.50–$7.00 | $3.00- 4,50 $ | 50–60% higher |
| Barres rondes (10MM) | $6.00–$7.50 | $3.50–$5.00 | 45–55% higher |
| Tuyaux (25mm de) | $7.00–$8.50 | $4.00–$5.50 | 55–65% higher |
Market Trend: 316 prices track nickel costs (nickel is ~10–14% of 316’s composition). The LME nickel index rose 15% dans 2023, pushing 316 prices up 10%.
10. 316 Acier inoxydable: Normes & Cross-References
316 meets global standards—here’s how grades map across regions:
| Region | Grade Designation | Cross-Reference to AISI 316 |
|---|---|---|
| U.S. | US S31600 (316), S31603 (316L) | Direct match |
| Europe | DANS 1.4401 (316), 1.4404 (316L) | Direct match |
| Japan | JIS G4305 SUS316 | Equivalent |
| UK | BS 316S31 | Equivalent |
| ISO | ISO 15510 X5CrNiMo17-12-2 | Equivalent |
Standard Tip: Use ASTM A240 for sheets/plates and ASTM A312 for pipes—these are the most widely accepted specs in North America.
11. 316 Acier inoxydable: Comparison with Other Stainless Steels
316 outperforms many grades in corrosion resistance, but other steels excel in cost or strength.
Key Comparisons
| Grade | Résistance à la corrosion | Force | Coût vs. 316 | Mieux pour |
|---|---|---|---|---|
| 304 | Inférieur (no molybdenum) | Similaire | 40–60% less | Indoor appliances, dry structural parts |
| 316L | Same as 316 | Slightly lower | Same | Welded parts (no weld decay) |
| 904L | Plus haut | Similaire | 200% plus haut | Extreme chemicals (Par exemple, acide sulfurique) |
| Duplex 2205 | Plus haut | 70% plus haut | 50% plus haut | High-pressure pipes, Structures offshore |
| 17-4 PH | Inférieur | 2x higher | Same | High-strength parts (Par exemple, valve stems) |
Perspective de la technologie Yigu
À la technologie Yigu, Nous recommandons 316 stainless steel for clients in marine, pharmaceutique, or coastal industries—where corrosion resistance saves long-term costs. We supply 316/316L in sheets, bars, et les tuyaux (ASTM/EN compliant) with EN 10204 3.1 certificates and PMI testing. For custom projects, we offer electropolishing and laser cutting, helping a marine client reduce fitting rust by 70%. We also share market insights (Par exemple, nickel price trends) to help clients plan budgets—ensuring 316 delivers value beyond initial cost.
FAQ
- Est 316 stainless steel safe for surgical implants?
Yes—316L is biocompatible (no toxic elements) and corrosion-resistant in body fluids. It’s widely used for hip implants, bone screws, et outils chirurgicaux, meeting ASTM F138 (implant-grade stainless steel) normes. - Peut 316 stainless steel be used in swimming pools?
Absolutely—316’s molybdenum content resists chloride stress corrosion cracking (SCC) from pool water. Use 316L for welded parts (Par exemple, ladder rungs) to avoid weld decay—304 would rust within 2–3 years in pool environments. - Why is 316L more expensive than 316?
316L has lower carbon content (≤0.03% vs. 316’s ≤0.08%), which requires more precise manufacturing to control carbon levels. This extra processing adds ~5–10% to the cost, but 316L’s resistance to weld decay makes it worth it for welded parts.
