| Customization: | Available |
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| Type: | Seamless |
| Technique: | ERW |
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UREA 316L Modified grade has been specially developed for Urea plant applications. It is a 316L modified stainless steel with extra-low silicon content and substantial higher molybdenum contents.
The low carbon content, combined with a well balanced chemistry (low silicon and nickel content close to 14%) makes the alloy fully austenitic, free of intermetallic phase precipitations. The ferrite level is kept under 0.5% in the solution annealing and water quenched conditions.
The alloy is designed for improved corrosion resistance properties in Urea- carbonate environments.
The table below provides the compositional ranges of grade 316LMOD stainless steels:
Composition ranges of grade 316LMOD stainless steels
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| Grade | UNS | DIN | EN | AMS | ASTM | JIS | |
| 316LMOD | 1.4435 | W.Nr 1.4435 | AMS 5507 AMS 5524 |
ASTM A240 | - | ||
Hot forming
Hot forming should be carried out in a temperature range of 1200-950C (2732- 1742F) after the piece has been uniformely heat treated. Final full annealing tremperature is required to obtain the requested microstructure. It will be performed at 1120-1180C (2048-2156F) followed by water quenching.
Cold forming
Due to its fully austenitic microstructure, the alloy can be cold formed without any problem. The higher molybdenum content and cold hardening behaviour of the steel explains that it may require more powerfull equipments than 304 stainless steel.
Surface treatment
Pickling
The UREA Modified grade must be used in the as pickled and passivated conditions. Pickling treatment may be performed with a nitro-hydrofluoric acid bath (10-20 % HN03 - 1.5-5% HF) at room temperature (few hours) or 20 minutes approx. at 60C (140F). 10-20% H2SO4 - 1.5-5% HF pickling bath may also be used.
Alloy UREA Modified can be welded with most of the welding processes : TIG, Plasma, MIG welding, as well as SMAW, SAW or FCAW processes.
The alloy is sensitive to hot cracking phenomenon due to its fully austenitic microstructure.
Weld should be performed in order to obtain extra-low ferrite contents, no carbide or nitrides precipitations, low silicon contents as well as no intermetallic phases precipitations.
Higher manganese content products should be considered.
Use basic coated electrodes or fluxes in order to decrease the hot cracking susceptibility. The heat input should be limited to 1,5 kJ/mm and interpass temperature kept below 150C (302F).
Typical corrosion test results in Huey test solution - ASTM A262-C are as follow :
maxi weight loss 3.3 m/48h - 0,54 g/mh with selective attack lower than 200 m.
| Density | Melting Range | Tensile Strength | Yield Strength (0.2%Offset) | Elongation |
| 7.90 g/cm3 | 1375 - 1400°C | ≥490Mpa | ≥190Mpa | ≥22% |
In the chemical industry,316LMod can be used to manufacture ships, offshore platforms and offshore drilling equipment, etc.
In the field of medical devices,Stainless steel 316LMod can be used to manufacture surgical instruments, artificial joints and implantable medical devices, etc.
In the field of aerospace, stainless steel 316LMod can be used to manufacture aerospace equipment such as aircraft, rockets and satellites.
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