Acero inoxidable, austenítico
317L Stainless Steel (S31703) Sheet & Plate
A lowcarbon, high molybdenum austenitic stainless steel with a higher nickel alloy content than 316L.
Alloy 317L (UNS S31703) is a low carbon corrosion resistant austenitic chromium-nickel-molybdenum stainless steel. The high levels of these elements assure the alloy has superior chloride pitting and general corrosion resistance to the conventional 304/304L y 316/316L grades. The alloy provides improved resistance relative to 316L in strongly corrosive environments containing sulfurous media, chlorides, and other halides.
It can be used in applications where it is not possible to anneal after welding and where maximum corrosion resistance is required. It provides good oxidation resistance in intermittent service to 1600 ° F and in continuous service to 1700 ° F.
This alloy combines excellent corrosion resistance with good mechanical properties, weldability, and conformabilidad, making it ideal for applications in chemical, petrochemical, and marine industries, as well as food processing and pharmaceutical equipment.
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317L Stainless Steel Related Specifications
| Sistema / Estándar | País / Región | Grado / Designación |
| AISI | EE.UU. | 317L |
| UNS | Internacional | S31703 |
| ES / W.Nr. | Europa | 1.4438 |
| ES Nombre | Europa | X2CrNiMo18-15-4 |
| ASTM A240 | EE.UU. | 317L (plate, sheet, strip) |
| ASTM A276 | EE.UU. | 317L (bars, shapes) |
| ASTM A213 | EE.UU. | TP317L (boiler / HX tubes) |
| ASTM A312 | EE.UU. | TP317L (seamless pipe) |
| GB | China | 022Cr19Ni13Mo3 |
| JIS | Japón | SUS317L |
| BS | Reino Unido | 317S12 |
| AFNOR | Francia | Z2CND19-15-04 |
Propiedades
Composición química
S31703 Sheet and Plate
ASTM A240
| Elemento químico | % Presente |
| Carbono (C) | 0.00 - 0.03 |
| Cromo (Cr) | 18.00 - 20.00 |
| Níquel (Ni) | 11.00 - 15.00 |
| Manganeso (Mn) | 0.00 - 2.00 |
| Fósforo (P) | 0.00 - 0.04 |
| Azufre (S) | 0.00 - 0.03 |
| Silicio (Si) | 0.00 - 0.75 |
| Molibdeno (Mo) | 3.00 - 4.00 |
| Nitrógeno (N) | 0.00 - 0.10 |
| Hierro (Fe) | Equilibrio |
Propiedades mecánicas
Sheet and Plate
ASTM A240
| Propiedad mecánica | Valor |
| Prueba Estrés | 205 MPa |
| Resistencia a la tracción | 515 MPa |
| Alargamiento A50 mm | 40 Min % |
Applications of 317L Stainless Steel
317L stainless steel es un low-carbon, high-molybdenum austenitic stainless steel con excelente resistencia a la corrosión, particularly in aggressive chemical and chloride-containing environments. Its combination of durability, weldability, and resistance to chemical attack makes it suitable for a wide range of applications.
1. Chemical and Petrochemical Industry
Reactors, tanks, and vessels for corrosive chemicals
Heat exchangers and condensers
Piping systems handling acids and chlorides
Valves, fittings, and pumps in chemical processes
2. Marine and Seawater Applications
Components exposed to seawater or brackish water
Marine piping and structural equipment
Desalination plant components
3. Food and Pharmaceutical Industry
Processing equipment requiring corrosion resistance and hygiene
Storage tanks and piping for acidic or aggressive media
Heat exchangers, evaporators, and agitators
4. Industrial and Mechanical Applications
Fasteners, bolts, and screws in corrosive environments
Structural components in aggressive atmospheres
Components exposed to high humidity or saline conditions
Resumen
317L stainless steel is widely used in chemical, marine, pharmaceutical, and industrial applications where superior corrosion resistance, especially to chlorides and oxidizing acids, is essential. Its low-carbon content ensures excellent weldability, making it ideal for fabricated components and complex assemblies.
Characteristics of 317L Stainless Steel
317L stainless steel es un low-carbon, high-molybdenum austenitic stainless steel diseñado para superior corrosion resistance and excellent performance in aggressive environments. It is widely used in industries requiring durability, chemical resistance, and good mechanical properties.
1. Superior Corrosion Resistance
Alta molybdenum content enhances resistance to pitting, crevice corrosion, and chemical attack, particularly in chloride or acidic environments.
Performs better than 316L in oxidizing and aggressive chemical media.
2. Austenitic Structure
Provides excellent ductility, toughness, and formability.
Maintains good mechanical properties at both high and low temperatures.
3. Low Carbon Content
Minimizes the risk of sensibilización during welding.
Ensures resistance to corrosión intergranular even after heat exposure.
4. Weldability and Fabrication
Excelente weldability using standard methods such as TIG, MIG, and SMAW.
Can be easily formed into sheets, pipes, or complex components.
5. Mechanical Properties
Good tensile strength, yield strength, and elongation.
Mantiene structural integrity under both static and dynamic loads.
Resumen
317L stainless steel is characterized by high corrosion resistance, excellent weldability, good formability, and reliable mechanical properties. Su low carbon and high molybdenum content hazlo ideal para chemical, marine, pharmaceutical, and industrial applications, especially where resistance to chlorides and acids is critical.
Información adicional
Fabricación
Fabrication of 317L Stainless Steel
317L stainless steel es un low-carbon, high-molybdenum austenitic stainless steel with excellent corrosion resistance and good mechanical properties. It can be fabricated using standard industrial techniques including forming, welding, and machining.
1. Formando
Trabajo en frío:
317L exhibits good ductility, making it suitable for bending, deep drawing, rolling, and stamping.
Work hardening occurs, so intermediate annealing may be required for extensive forming.
Trabajo en caliente:
Performed at elevated temperatures to reduce work hardening and improve ductility.
Typical hot working range: 1150–900 °C (2100–1650 °F).
2. Soldadura
Excellent weldability using TIG, MIG, SMAW, and FCAW methods.
Low carbon content minimizes sensibilización and reduces risk of corrosión intergranular.
Filler metals such as ER317L o ER316L are commonly used to ensure corrosion resistance in welded joints.
3. Mecanizado
Moderate machinability due to the austenitic structure.
Work hardens easily; sharp tools and rigid setups are recommended.
Carbide tools and proper cutting fluids improve tool life and surface finish.
4. Tratamientos posteriores a la fabricación
Recocido: Restores ductility and relieves stresses after heavy cold working.
Pickling and Passivation: Recommended to remove scale and restore optimal corrosion resistance after welding or hot forming.
5. Aplicaciones relacionadas con la fabricación
Chemical and petrochemical processing equipment
Marine components and seawater piping
Food and pharmaceutical processing machinery
Heat exchangers, tanks, and vessels
Resumen
317L stainless steel is altamente fabricable, supporting cold and hot forming, welding, and machining. Its low carbon content ensures excellent weldability and corrosion resistance, making it ideal for chemical, marine, pharmaceutical, and industrial applications.
Soldabilidad
Weldability of 317L Stainless Steel
317L stainless steel es un low-carbon, high-molybdenum austenitic stainless steel con excellent weldability, making it suitable for fabricating corrosion-resistant components in aggressive environments.
1. Soldabilidad general
Can be welded using all standard fusion welding techniques:
TIG (GTAW)
MIG (GMAW)
SMAW (Soldadura por arco con electrodo revestido)
Soldadura por arco con núcleo de fundente
Welds maintain good toughness, corrosion resistance, and mechanical strength.
2. Low Carbon Advantage
The low carbon content minimizes sensibilización, preventing corrosión intergranular in welded zones.
Unlike higher carbon stainless steels, 317L does not require special post-weld heat treatment for corrosion resistance in most applications.
3. Filler Metal Recommendations
Suitable filler metals include:
ER317L (matching high-molybdenum, low-carbon composition)
ER316L (for less aggressive environments)
Filler selection ensures consistent corrosion resistance and mechanical properties in the weld.
4. Heat Input and Preparation
Moderate heat input is recommended to avoid excessive grain growth.
Clean joint surfaces free of oil, grease, or oxide scale ensure better weld quality.
Preheating is typically not required.
5. Post-Weld Considerations
Post-weld annealing is generally unnecessary unless the component is heavily stressed or exposed to very aggressive environments.
Decapado o pasivado is recommended to restore the chromium oxide layer after welding.
6. Applications Related to Weldability
Chemical and petrochemical equipment
Marine piping and structural components
Food and pharmaceutical processing machinery
Heat exchangers, tanks, and vessels
Resumen
317L stainless steel exhibits excellent weldability due to its low carbon content and austenitic structure. Proper filler selection and controlled welding techniques produce strong, corrosion-resistant joints, making 317L ideal for chemical, marine, pharmaceutical, and industrial applications.
Maquinabilidad
Machinability of 317L Stainless Steel
317L stainless steel es un low-carbon, high-molybdenum austenitic stainless steel. It offers maquinabilidad moderada, similar to other austenitic stainless steels, but certain characteristics require careful attention during machining.
1. Endurecimiento por trabaj
317L has a high tendency to work harden, especially during light cuts or repeated passes.
To reduce work hardening:
Utilice sharp, rigid tooling
Avoid shallow or interrupted cuts
Empleo adequate lubrication and coolant
2. Recomendaciones sobre herramientas
Herramientas de carburo are preferred for efficient cutting and long tool life.
High-speed steel (HSS) tools can be used for lower-speed operations.
Rigid fixturing minimizes vibration and improves surface finish.
3. Condiciones de corte
Utilice moderate to low cutting speeds to avoid heat buildup.
Maintain adequate feed and depth of cut to reduce tool rubbing.
Continuous coolant flow improves tool life and chip evacuation.
4. Formación de viruta
Produce virutas largas y dúctiles due to its austenitic structure.
Use chip breakers or controlled cutting techniques to manage chips effectively.
5. Surface Finish
Achievable with proper tooling and lubrication.
Avoid overheating, which can degrade the surface layer and reduce corrosion resistance.
6. Applications Related to Machining
Precision components in chemical and petrochemical equipment
Fittings, valves, and fasteners in aggressive environments
Piping, tanks, and industrial machinery requiring corrosion-resistant parts
Resumen
317L stainless steel exhibits maquinabilidad moderada with a high work-hardening tendency. Proper tooling, cutting speeds, and coolant use are essential for effective machining. Its machinability combined with excelente resistencia a la corrosión lo hace adecuado para chemical, marine, pharmaceutical, and industrial applications.
Resistencia a la corrosión
Corrosion Resistance of 317L Stainless Steel
317L stainless steel es un low-carbon, high-molybdenum austenitic stainless steel that provides excelente resistencia a la corrosión in aggressive environments, particularly where chlorides or oxidizing acids are present. Its corrosion resistance is superior to that of 316L due to the higher molybdenum content.
1. Resistencia general a la corrosión
Resiste oxidation y general atmospheric corrosion.
Rinde bien en moderate chemical environments, including mild acids and alkaline solutions.
Suitable for outdoor applications and industrial environments.
2. Pitting and Crevice Corrosion
High molybdenum content improves resistance to corrosión por picaduras y grietas.
Particularly effective in chloride-containing environments, such as seawater or brine solutions.
Outperforms 316L in marine and chemical processing applications.
3. Intergranular Corrosion Resistance
Low carbon content minimizes sensibilización during welding.
Maintains resistance to intergranular corrosion (IGC) en componentes soldados.
4. Resistance to Chemical Attack
Rinde bien en oxidizing acids such as nitric acid.
Provides moderate resistance to reducing acids (e.g., hydrochloric acid) under controlled conditions.
Excellent choice for chemical reactors, tanks, and piping handling aggressive fluids.
5. Limitations
Like other austenitic stainless steels, 317L can be susceptible to:
Stress corrosion cracking (SCC) in hot chloride solutions
Localized attack in highly acidic or strongly reducing environments
6. Applications Related to Corrosion Resistance
Chemical and petrochemical equipment
Marine and seawater-exposed components
Food and pharmaceutical processing machinery
Heat exchangers, piping, and storage tanks
Resumen
317L stainless steel provides excellent overall corrosion resistance, with superior performance in chloride-rich and oxidizing environments due to its high molybdenum content and low carbon. Its combination of corrosion resistance, weldability, and formability lo hace ideal para chemical, marine, pharmaceutical, and industrial applications.
Trabajo en frío
Cold Working of 317L Stainless Steel
317L stainless steel es un low-carbon, high-molybdenum austenitic stainless steel that exhibits good ductility and formability, making it suitable for a variety of cold working operations. Cold working increases strength through endurecimiento del trabajo while retaining corrosion resistance.
1. Procesos de Trabajo de Resfriado Común
Doblado y conformado: Can be shaped into complex geometries for tanks, piping, and structural components.
Rodando: Suitable for sheets, strips, and coils.
Deep Drawing: Can produce containers, trays, and intricate components.
Stamping and Punching: Used in chemical, marine, and industrial applications.
2. Endurecimiento del trabajo
317L el trabajo se endurece rápidamente, aumentando la resistencia a la tracción y la fluencia durante la deformación.
Excessive cold working can reduce ductility.
Recocido intermedio is recommended for extensive forming to restore ductility and relieve internal stresses.
3. Consideraciones sobre la fabricación
Utilice deformación gradual para evitar que el material se agriete o se someta a una tensión excesiva.
Proper tooling, lubrication, and support are essential for maintaining surface finish and dimensional accuracy.
Los componentes trabajados en frío pueden requerir alivio del estrés for critical applications.
4. Aplicaciones relacionadas con el trabajo en frío
Chemical and petrochemical processing equipment
Marine components exposed to seawater
Food and pharmaceutical processing machinery
Tanks, piping, and structural parts requiring corrosion resistance
Resumen
317L stainless steel exhibits excellent cold working characteristics, allowing bending, rolling, deep drawing, and stamping. Cold working enhances strength while maintaining resistencia a la corrosión, making 317L ideal for chemical, marine, pharmaceutical, and industrial applications.
Tratamiento térmico
Heat Treatment of 317L Stainless Steel
317L stainless steel es un low-carbon, high-molybdenum austenitic stainless steel. Its strength is primarily derived from its austenitic structure and work hardening, so it is not hardenable by conventional heat treatment methods. Heat treatment is mainly used for annealing, stress relief, and restoring ductility after cold working or welding.
1. Recocido
Purpose: Restore ductility, relieve stresses, and improve corrosion resistance after cold working or welding.
Typical temperature: 1040–1120°C (1900–2050°F).
Cooling method: Rapid cooling, typically in air or water, to maintain corrosion resistance.
2. Alivio del estrés
Applied to reduce internal stresses from forming, welding, or machining.
Rango de temperaturas: 450–650°C (840–1200°F).
Ensures dimensional stability and reduces risk of distortion or cracking.
3. Efectos del Tratamiento Térmico
Restores ductility and toughness in heavily cold-worked areas.
Eliminates residual stresses from welding or fabrication.
¿Hace no aumentar significativamente la fuerza, as 317L is not precipitation-hardenable.
4. Post-Treatment Surface Finishing
Pickling or passivation may be applied after heat treatment to remove oxides and restore the protective chromium oxide layer for optimal corrosion resistance.
5. Aplicaciones relacionadas con el tratamiento térmico
Welded piping, tanks, and vessels in chemical processing
Heat exchangers and reactors requiring dimensional stability
Marine and pharmaceutical equipment exposed to high temperatures
Resumen
Heat treatment of 317L stainless steel is used primarily for annealing and stress relief, manteniendo ductility, corrosion resistance, and dimensional stability. It ensures reliable performance in chemical, marine, pharmaceutical, and industrial applications, especially after fabrication or welding.
Resistencia al calor
Heat Resistance of 317L Stainless Steel
317L stainless steel es un low-carbon, high-molybdenum austenitic stainless steel with good resistance to oxidation and scaling at elevated temperatures. Its chemical composition allows it to maintain corrosion resistance and mechanical integrity in moderately high-temperature applications.
1. Temperatura de servicio continuo
Adecuado para continuous service up to approximately 870°C (1600°F) in oxidizing atmospheres.
Maintains mechanical strength and corrosion resistance under sustained heat exposure.
2. Exposición intermitente
Aguantar short-term or intermittent exposures up to 925°C (1700°F) without significant scaling or oxidation.
Adecuado para componentes expuestos a ciclaje térmico o temperaturas altas y fluctuantes.
3. Resistencia a la oxidación
Forma estable capa de óxido de cromo that protects against scaling and oxidation.
High molybdenum content enhances resistance to localized attack during high-temperature exposure.
4. Limitaciones
Not suitable for prolonged service at extremely high temperatures (>925°C / 1700°F).
May be susceptible to crevice or stress corrosion cracking in hot chloride-containing environments.
5. Aplicaciones Relacionadas con la Resistencia al Calor
Heat exchangers, boilers, and furnace components in chemical and petrochemical industries
Tuberías y tanques de alta temperatura
Marine equipment exposed to elevated temperatures
Industrial equipment requiring moderate heat resistance combined with corrosion resistance
Resumen
317L stainless steel provides good heat resistance for continuous service up to 870°C y exposición intermitente hasta 925°C, while maintaining corrosion resistance and mechanical integrity. Its combination of heat resistance, corrosion resistance, and weldability lo hace adecuado para chemical, marine, pharmaceutical, and industrial applications.
Trabajo en caliente
Hot Working of 317L Stainless Steel
317L stainless steel es un low-carbon, high-molybdenum austenitic stainless steel with good hot workability. Hot working allows shaping and forming at elevated temperatures while minimizing work hardening and maintaining mechanical integrity.
1. Hot Working Temperature
Recommended hot working range: 1150–900 °C (2100–1650 °F).
Proper temperature control prevents crecimiento del grano and preserves corrosion resistance and strength.
2. Procesos de trabajo en caliente
Laminación en caliente: Produce láminas, planchas y tiras con espesor uniforme.
Forja: Suitable for structural components and high-temperature parts.
Extrusión: Enables production of rods, tubes, and profiles.
Hot Pressing and Forming: Useful for shaping complex geometries with minimal risk of cracking.
3. Ventajas del trabajo en caliente
Reduce endurecimiento del trabajo en comparación con el trabajo en frío.
Mejora ductilidad y tenacidad in the finished component.
Facilitates the production of large, thick, or complex parts.
4. Tratamientos posteriores al trabajo en caliente
Recocido may be applied to restore uniform mechanical properties and relieve residual stresses.
Decapado o pasivado Mejora la resistencia a la corrosión superficial después del trabajo en caliente.
5. Aplicaciones relacionadas con el trabajo en caliente
Heat exchangers, furnace components, and high-temperature piping
Structural components for petrochemical and power generation equipment
Industrial parts requiring high-temperature performance and corrosion resistance
Resumen
317L stainless steel exhibits excelentes características de trabajo en caliente, allowing rolling, forging, extrusion, and complex forming at 1150–900°C. Hot working reduces work hardening, enhances ductility, and enables the production of parts for chemical, marine, pharmaceutical, and industrial high-temperature applications.
