Maintaining & Cleaning Stainless Steel – Austral Wright Metals

 

Maintaining & Cleaning Stainless Steel - Austral Wright Metals

Application Data Sheet – Stainless Steel

Maintaining & Cleaning Stainless Steel

Stainless steels are often used in domestic and architectural situations for their excellent and long-lasting appearance. They are inherently corrosive-resistant materials that do not need added surface protection. With a minimum of care and attention, they will serve without the deterioration which can affect other metals and materials. However like other construction materials they are not maintenance free so in this article we show you step-by-step how to clean stainless steel.

 

Clean stainless steel with protective gloves.

Why stainless steel has good corrosion resistance

It is the combination of alloying elements in stainless steel that gives it a thin passive layer on stainless steel surfaces resulting in it’s superior corrosion resistance. The thin layer is formed on instantly formed in the presence of oxygen, even in water, so when the surface is scratched the passive layer continues to provide corrosion resistance to the stainless steel surface.

 

Why stainless steel gets dirty.

 

 

Choose the right grade

The first essential is that the grade of stainless must be chosen to have adequate corrosion resistance for the service environment. Table 1 gives some guidance. Austral Wright Metals should be consulted in case of doubt.

Choosing the right grade of stainless steel.

Table 1: Grade Selection for Atmospheric Corrosion Resistance

Steel Grade
Location
Rural
Urban
Industrial
Marine
L
M
H
L
M
H
L
M
H
L
M
H
430
2
2
2
X
X
X
X
X
X
X
X
X
304
1
1
1
1
1
2
2
2
X
1
2
X
316
3
3
3
3
1
1
1
1
2
1
1
2
445M2
3
3
3
3
1
1
1
1
1
1
1
1
2205
3
3
3
3
3
3
3
3
1
3
3
1

L Least corrosive conditions within the category – eg low temperature, humidity

M Typical of the category

H Corrosion worst for the category – eg high humidity, ambient temperature, air pollution

1 – Best choice for corrosion resistance and cost

2 – Usable if precautions are taken (use a smooth surface and wash regularly)

3 – Over specified for corrosion

X – Likely to corrode excessively

Traps for young players

DoDon’t
Use Stainless Steel Brushes, and only on Stainless Steel
Use wire brushes or steel wool made of carbon steel, or stainless steel brushes previously used on carbon steel.
Use dedicated blasting consumables, which will not rust
Shot blast stainless steel surfaces with carbon steel shot, or any other shot/grit that has been used for carbon steel
Wash cement or mortar off stainless steel before it dries, or soak and carefully abrade it off as soon as possible.
Clean up brickwork around stainless steel with hydrochloric acid (muriatic acid, brick cleaning solution) – never splash this acid on stainless steel.

Things to avoid and initial cleaning steps

An adhesive plastic film during fabrication, transport and installation often protects stainless steel appliances. This provides excellent protective layer against damage and soiling, however these films will deteriorate on exposure to sunlight and UV which will make them difficult to remove if not done as soon as possible.

If the stainless steel has mortar or cement splashes it can be treated with a solution containing a small amount of phosphoric acid. Rinse with water and dry. It is preferable to use deionised water for this process as it reduces the risk of water staining marks. Never allow mortar removers or diluted hydrochloric acid to be used on stainless steel. If the stainless steel has been in contact with these substances then rinse thoroughly with generous amounts of fresh water.

Care should be taken to avoid stainless steel surfaces becoming contaminated with iron particles. These particles can prevent the self-healing of the stainless steel passive film and result in pitting corrosion. Therefore any contamination of iron from tools, grinding, other structures, etc should be removed immediately. However if any early stages of this iron corrosion occur, light deposits can be removed using nylon pads or a proprietary stainless steel cleaner containing phosphoric acid. If pitting has occurred, acid treatments or mechanical rectification will be needed to restore the surface.

Whilst most staining, corrosion or pitting can be removed, the restoration may change the appearance of the stainless steel appliance or product. Further mechanical or chemical treatment may be needed to restore the surface to the original appearance. In some situations this may not be possible, or is it best to avoid the contamination in the first place.

What not to use

Stainless steel cleaners that should not be used to clean stainless steel appliances, stainless steel pots, stainless steel refrigerator, stainless steel stove, or any stainless appliances include:

  • chloride containing cleansers, in particular those containing hydrochloric acid,
  • hypochlorlite bleaches,
  • silver cleaners must not be used on stainless steel.

 

How to clean stainless steel.

Maintenance cleaning stainless steel

On facades and external applications, rain can normally wash off accumulations of dirt and other harsh deposits. However the amount and regularity of the rainfall will determine how effective this type of cleaning is. In areas with little rain, or sheltered locations, added attention should be given to routine cleaning practices. This is even more critical in marine or industrial environments where airborne chlorides can result in localised corrosion.

Cleaning stainless steel appliances, and other interior applications, to prevent fingerprints marks can be an issue. The surface finish selected can have a big impact with some finishes less sensitive to this type of marking. Brushed finishes may show finger print marls after finish installation, however will usually be less evident after several cleaning cycles, using a proprietary cleaner to wipe clean and add shine.

Cleaning Rust and Other Stains

There are several ways in which a stainless steel may be discoloured by rust in architectural applications:

  • if the environment is more aggressive than the grade of stainless can resist, e.g marine atmospheres, chlorine containing cleaners, severe industrial pollution
  • if the steel has a rough surface finish, or sticky surface deposits, which keep aggressive atmospheric contaminants on the surface
  • if the design of the structure includes pockets, narrow gaps and areas where ponds can form
  • if the surface is contaminated with carbon steel particles such as grinding swarf, wire rope slings and debris from tools previously used on carbon steel
  • if rust from carbon steel fasteners or adjacent carbon steel components washes over the stainless steel.

Careful attention to grade selection and design, and prompt action to wash stains off as they develop, will prevent serious staining in most cases. The table below gives methods for removing all stains and discolourations. The method selected should be tried on an inconspicuous area first.

Stain TypeCleaning Method
Fingerprints

Wash with alcohol, thinners, trichlorethylene or acetone, rinse with clean cold water or glass cleaner, wipe dry with a soft cloth.

High traffic areas of low corrosivity benefit from a light wax coating.
Oil & Grease

As above, adding a washing step with soap or a mild detergent, before rinsing.

For stubborn deposits, oven cleaners containing caustic soda (sodium hydroxide) may be tried.
More Stubborn Areas

Wash with a mild abrasive cleaning agent, rubbing in the direction of the visible surface structure, rinse with clean cold water, wipe dry

OR –
Wash with 10% phosphoric acid solution, rinse with ammonia solution, then with clean cold water, wipe dry
OR – Rub gently with sulphamic acid powder on a damp cloth, rinse with clean cold water, wipe dry
Temper colour
Wash with abrasive cleaning agent, as described above, or with a Scotchbrite sponge.
Rust Stains
Wet the surface with oxalic acid or 10% nitric acid, leave for 10 – 20 minutes, rinse with ammonia or sodium bicarbonate solution, rinse with clean cold water, wipe dry. This treatment may need to be repeated, depending on the severity of the rust staining. An abrasive cleaning agent may be used on some surfaces to speed rust removal.
Paint
Wash with paint solvent or thinners (use a soft nylon brush), rinse with clean cold water, wipe dry.
Scratches on a ground or brushed surface
Polish with a polishing wheel, using iron free abrasives, in the direction of the surface. Select the abrasives to match the original surface. Remove polishing residues by washing with soap or a mild detergent and water, rinse with clean cold water, wipe dry.

Safety

Use solvents, acids etc only when necessary. Wear rubber gloves and eye protection, follow all safety regulations – ensure good ventilation, take fire precautions.

The technical advice and recommendations made in this Product Data Sheet should not be relied or acted upon without conducting your own further investigations, including corrosion exposure tests where needed. Please consult current editions of standards for design properties. Austral Wright Metals assumes no liability in connection with the information in this Product Data Sheet. Austral Wright Metals supplies a comprehensive range of stainless steels, copper alloys, nickel alloys and other high performance metals for challenging service conditions. Our engineers and metallurgists will be pleased to provide further data and applications advice.

 

The technical advice and recommendations made in this Product Data Sheet should not be relied or acted upon without conducting your own further investigations, including corrosion exposure tests where needed. Please consult current editions of standards for design properties. Austral Wright Metals assumes no liability in connection with the information in this Product Data Sheet. Austral Wright Metals supplies a comprehensive range of stainless steels, copper alloys, nickel alloys and other high performance metals for challenging service conditions. Our engineers and metallurgists will be pleased to provide further data and applications advice.

 

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