Metal Casting

Does Stainless Steel Rust?

Stainless steel building

Best practices in rust prevention from design to maintenance

Will stainless steel rust?

Stainless steel is naturally corrosion-resistant, but it is not immune to rust. While it is less prone to rusting than conventional steels, exposure to damaging chemicals, saline, grease, moisture, or heat for extended periods of time can cause corrosion. The likelihood of corrosion depends on the chromium content of the stainless steel, with higher chromium content reducing the risk of rust formation.

Stainless steel basics

To understand why stainless steel is rust-resistant, and how this resistance breaks down, it is helpful to understand how these alloys are different than other steels.

Stainless contains a minimum of 10.5% chromium. This chromium reacts quickly with surrounding oxygen to form a thin oxide layer on the steel’s surface. Unlike iron oxide, which often is in the form of flaky and corrosive rust, the chromium oxide clings to the steel. It therefore acts as a protective barrier. The chromium oxide is known as a passive film which seals the iron in the alloy away from the air and water in the environment. This film gives stainless its rust-resistance. 

Stainless steel is low maintenance, and its resistance to oxidation and staining makes it an ideal material for many applications. 

There are four main types of stainless steels: austenitic, ferritic, martensitic, and duplex. Austenitic stainless steel is dominant in industry and comprises over 70% of total stainless steel production. Its properties include a maximum of 0.15% carbon and a minimum of 16% chromium, yielding very strong protection against rust. Ferritic stainless steel has reduced corrosion resistance compared to austenitic grades, but fares better than martensitic stainless steel. Duplex stainless steels have high resistance to localized corrosion particularly pitting, crevice corrosion, and stress corrosion cracking.

Stainless steel building
Stainless steel’s rust-resistant properties make it an ideal material for many applications including building materials that enhance modern aesthetic appeal.

Types of stainless steel corrosion

There are six common types of stainless steel corrosion:

  • General
  • Galvanic
  • Intergranular
  • Pitting
  • Crevice
  • Stress corrosion cracking

General corrosion is considered the safest form of corrosion as it is predictable, manageable, and often preventable. Localized corrosion, such as pitting and crevice corrosion, are harder to detect due to the smaller surface area affected, but can still have damaging effects. Stress corrosion cracking is also concerning as the cracks may not be detected until the application fails.


General corrosion
(or uniform corrosion)

  • Uniform loss of metal over entire surface
  • Stainless steel with pH value of less than 1 are more prone to general corrosion

Galvanic corrosion
(or bimetallic corrosion)

  • Electrochemical process where one metal corrodes preferentially compared to another in the presence of electrolyte

Intergranular corrosion

  • Corrosion where boundaries of crystallites are more likely to corrode than inside surfaces
  • Occurs after heating austenitic stainless steel at approximately 842–1562°F

Pitting corrosion

  • Localized corrosion resulting in cavities or holes
  • Occurs when stainless steel is exposed to environments containing chlorides

Crevice corrosion

  • Localized corrosion at the crevice between two joining surfaces
  • Formed between two metals or between metal and non-metal

Stress corrosion cracking

  • Growth of crack formation in corrosive setting
  • Tensile stresses in combination with corrosive environmental conditions lead to cracking
Stainless steel corrosion on pipe
Stainless steel can be at risk for rusting if the metal molecules at the surface are not sufficiently alloyed with chromium.

Stainless steel rust prevention

Steps to prevent stainless steel corrosion should be undertaken throughout the stainless steel lifecycle. Best practices during the design and production stage, as well as routine maintenance, will prolong the performance and appearance of the metal.

1. Design

Taking a proactive stance with stainless steel design pays off in the long term. Proper planning in the design stage of stainless steel applications will minimize water penetration and reduce the potential for surface damage. Drainage holes for water should be used when possible, and cavities and crevices limited. Air flow is critical, and the design should encourage air to circulate freely throughout the application.

2. Fabrication

During the fabrication stage, it is important to prevent stainless steel from contacting iron or ordinary steel. This requires vigilance in surveying the surrounding environment including work tables, tools, storage units, steel turning rolls, and chains. Any carbon steel dust particles settling onto the stainless steel during fabrication can contaminate its surface, increasing the potential for rust formation. Furthermore, cleaning and grinding tools that have been used with carbon or low alloy steel must be kept separate from stainless steels.

Welding stage of stainless steel
Stainless steel rust prevention starts during the fabrication stage—stainless steel must not contact ordinary iron or steel in the welding area.

3. Maintenance

Regular maintenance plays a key role in stainless steel rust prevention, as well as limiting the progression of existing rust. It is essential to remove any rust that has formed using mechanical or chemical means. The resulting grime can then be cleared away using warm water and soap. After cleaning, a rust-resistant coating should be applied.

Close-up photo of stainless steel bollard
If rust is discovered during cleaning, remove it using mechanical or chemical means and clear away the resulting grime with water and soap.

Stainless steel for outdoor site furnishings

Outdoor site furnishings are meant to create dynamic city spaces that are efficient, safe, and enhance social interaction. Benches, tables, planters, bike racks, and bollards are examples of furnishings that work to establish order on city streets by preventing clutter and protecting pedestrians from heavy traffic. Outdoor site furnishings are repeatedly exposed to mechanical damage and weathering. Therefore, stainless steel is a highly sought-after base material because of its rust resistance—built in as a chromium-oxide layer. This significantly reduces rust in most furnishings when exposed to harsh elements.

Stainless steel bike rack in the city
Stainless steel is a practical material for urban furnishings that are expected to be both functional and aesthetically pleasing.

Cleaning stainless steel for ongoing maintenance is generally easy and suitable for outdoor environments. Minor surface cleaning can be done with soap and water or a diluted ammonia solution, and dried with a soft cloth or air blower. If rust formation is showing, commercial solutions can be used to passivate the surface of the stainless steel which removes surface oxidation.

Unlike industrial applications, urban furnishings are expected to maintain an attractive appearance and complement surrounding infrastructure. When taking on this dual role of functionality and aesthetics, stainless steel is a reliable material of choice due to its durable yet refined presence.

Stainless steel railings
Stainless steels in outdoor environments are exposed to harsh elements and require more diligent care and maintenance.

For more information on stainless steel, or to request a quote for a custom project, please contact us.