Selection of Stainless Steel for Handling Phosphoric Acid H3PO4
Phosphoric Acid is also know as orthophosphoric acid and is classed as a weak acid. Austenitic stainless steel have good corrosion resistance to chemically pure phosphoric acid. Wet process phosphoric acid (WPA) can be aggressive.
It is used as a chemical-cleaning agent for stainless steel but is not considered to be a 'passivating' acid.
Commercially concentrated acid is around 85wt. % . The iso-corrosion diagram 0.1mm/year lines are represented for the 304 (blue) and 316 (red) types and show that the 304 types should be satisfactory up to acid's boiling point to around 25% concentration.
Corrosion resistance of stainless steel
The austenitic stainless steel have good corrosion resistance to chemically pure phosphoric acid over a wide range of concentration and temperature.
(The broken line represents the boiling point)
At higher concentrations 316 is resistant at higher temperature for any particular concentration i.e. the lines are essentially parallel. The 316 types should be considered if chlorides are likely to be in the acid.
Wet process phosphoric acid (WPA) can be aggressive towards stainless steels, depending on the range of impurities that the acid contains. This can be of particular concern in bulk handling and transportation of raw phosphoric acid and specialist advice is needed to optimise grade selection.
Chlorides, fluorides and sulphuric acid impurities increase the risk of corrosion, along with increases in temperature. The more pitting resistant steel grades should be considered when these impurities are known to be present.
Uses for phosphoric acid with stainless steel
Phosphoric acid is used as a chemical-cleaning agent for stainless steel. It is used in commercially available stainless steel cleaning preparations and so if used in accordance with the manufacturers / suppliers instructions will not etch or corrode the steel surface. Phosphoric acid is not considered to be a 'passivating' acid but the clean surface left after treatment should allow the stainless steel to naturally self passivate.
Related References:
Selection of Stainless Steel fo Handling Sulphur Dioxide SO2 and Sulphur Trioxide SO3
Selection of Stainless Steel for Handling Phosphoric Acid H3PO4
Selection of Stainless Steel for Handling Hydrofluoric Acid HF
Selection of Stainless Steel for Handling Citric Acid C3H4OH (COOH)3
Selection of Stainless Steel for Handling Ammonia NH3
Selection of Stainless Steel for Handling Chlorine Cl2 and Chlorine Dioxide ClO2
Selection of Stainless Steels For Handling Hydrochloric Acid HCl
Selection of Stainless Steel for Handling Sulphuric Acid H2SO4
Selection Stainless Steel for Handling Sodium Hydroxide NaOH
Selection of stainless steels for handling acetic acid (CH3COOH)
Selection of stainless steels for handling sodium hypochlorite (NaOCl)
Selection of stainless steels for handling nitric acid (HNO3)
NACE MR 0175/ISO 15156 for Corrosion Resistant Alloys for Sulphide Service
Selection of stainless steels in water supply and waste water treatment
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