Placa de Acero Inoxidable
La Aleación 410 es el acero inoxidable martensítico básico, para uso general, que puede endurecerse. Se usa para partes sometidas a grandes esfuerzos con buena resistencia a la corrosión y resistencia mecánica. La Aleación 410 resiste la corrosión en atmósferas ligeramente corrosivas, vapor, y en muchos ambientes químicos leves. La aleación puede tratarse térmicamente para obtener una alta resistencia con buena ductilidad.
Available thicknesses for Alloy 410:
|3/16"||1/4"||5/16"||3/8"||1/2"||5/8"||3/4"||7/8"||1"||1 1/8"||1 1/4"||1 3/8"|
|1 1/2"||1 5/8"||1 3/4"||2"||2 1/4"||2 1/2"||2 3/4"||3"||3 1/4"||3 1/2"||3 3/4"||4"|
Alloy 410 stainless steel plate is the general purpose 12% chromium martensitic stainless steel that can be heat treated to obtain a wide range of mechanical properties. 410 stainless steel plate possesses high strength and hardness coupled with good corrosion resistance. Alloy 410 stainless steel plate is ductile and can be formed. It is magnetic in all conditions.
Alloy 410 (UNS S41000) is a 12% chromium martensitic stainless steel plate that can be heat treated to obtain a wide range of mechanical properties. The alloy has good corrosion resistance along with high strength and hardness. In the annealed condition, 410 stainless steel plate is ductile and may be formed. It remains magnetic in both the annealed and heat treated conditions.
Alloy 410 stainless steel plate is resistant to atmospheric conditions, water and some chemicals. It can be used in environments containing weak or diluted acetic acid, naptha, nitric acid and sulfuric acid. The alloy is also resistant to acids contained in foods.
410 stainless steel plate can also be used in slightly chlorinated and desaereted water. It performs well in oil and gas applications where desaereted and low hydrogen sulfide exist. However, the alloy is prone to chloride attack, particularly in oxidizing conditions.
410 stainless steel plate stainless steel plate operates well in environments requiring moderate corrosion resistance and high mechanical properties.
Alloy 410 stainless steel plate resists oxidation up to 1292°F (700°C) continuously, and up to 1500°F (816°C) on an intermittent basis.
Weight % (all values are maximum unless a range is otherwise indicated)
|Chromium||11.5 min.-13.5 max.||Phosphorus||0.04|
|Carbon||0.08 min.-0.15 max.||Silicon||1.0|
Specific Heat0.11 BTU/lb-°F (32 – 212°F)
0.46 J/kg-°K (0 – 100°C)
Modulus of Elasticity29.0 x 106 psi
Thermal Conductivity 200°F (100°C)14.4 BTU/hr/ft2/ft/°F
Melting Range2700 – 2790°F
1480 – 1530°C
Electrical Resistivity22.50 Microhm-cm at 68°C
57 Microhm-cm at 20°C
Typical Values at 68°F (20°C)
in 2 in.
|psi (min.)||(MPa)||psi (min.)||(MPa)||% (min.)||(max.)|
Annealing – Heat slowly to 1500 – 1650°F (816 – 899°C), cool to 1100oF (593°C) in furnace, air cool
Process Annealing – Heat to 1350 – 1450°F (732 – 788°C), air cool
Hardening – Heat to 1700 – 1850°F (927 – 1010°C), air cool or oil quench. Follow by stress-relief or temper
Stress Relieving – Heat to 300 – 800°F (149 – 427°C) for 1 to 2 hours, air cool
Tempering – Heat to 1100 – 1400°F (593 – 760°C) for 1 to 4 hours, air cool
The alloy can be cold worked with moderate forming in the annealed condition.
It is typically done in the 1382 – 2102°F (750 – 1150°C) range followed by air cooling. For smaller plate deformation such as bending, preheating should be done in the 212 – 572°F (100 – 300°C) temperature range. If a plate undergoes substantial deformation it should undergo a re-anneal or stress-relieving treatment at about 1202°F (650°C).
Alloy 410 stainless steel plate is best machined in the annealed condition at surface speeds of 60 – 80 feet (18.3 – 24.4m) per minute. Post machining decontamination and passivation are recommended.
Alloy 410 stainless steel plate is best machined in the annealed condition at surface speeds of 60 – 80 feet (18.3 – 24.4m) perDue to its martensitic structure, Alloy 410 stainless steel plate has limited weldability because of its hardenability. A post-weld heat treatment should be considered to assure the attainment of the required properties. When weld filler is needed, AWS E/ER 410, 410 NiMo and 309L are the most widely specified.minute. Post machining decontamination and passivation are recommended.
NOTE: The information and data in this product data sheet are accurate to the best of our knowledge and belief, but are intended for informational purposes only, and may be revised at any time without notice. Applications suggested for the materials are described only to help readers make their own evaluations and decisions, and are neither guarantees nor to be construed as express or implied warranties of suitability for these or other applications.