Why does steel rust and how to prevent it

Steel Rust

Have you ever paused at the sight of rusty steelwork and wondered what exactly is going on? What is rust, why does it form—and when should you worry about it?

At its core, rust is simply a chemical reaction: the interaction of steel with oxygen in the presence of water. It’s a basic metallurgical process, but one with serious implications. Despite being a natural transformation, rust can be extraordinarily costly to correct once it sets in.

Why does steel rust?

The irony is that the prevalence of rust in our built environment is due more to steel’s strengths than its weaknesses. Steel is the backbone of modern industrial economies: strong and incredibly versatile. But it also begins to corrode the moment it is exposed to the elements. In that respect, rust is not a failure of steel—it’s steel reverting to its original state: iron oxide.
That familiar reddish hue? That’s hydrated ferric oxide. But rust isn’t always that simple. It comes in many forms.

Rust Is Not Just Rust

The chemical formula often used to describe rust is:

4Fe + 2H₂O + 3O₂ → 2Fe₂O₃·H₂O

But this is a simplification. Rust can include a wide array of compounds depending on both the alloy of the steel and the environmental conditions in which the corrosion occurs. Air-formed rusts typically contain around 5% compounds other than Fe₂O₃·H₂O, including various oxides, hydroxides, and even salts. This diversity means that rust doesn’t always behave predictably—and it isn’t always easy to remove.

The Sulphur Dioxide Effect on Steel Rust

In industrial settings, sulphur dioxide (SO₂) can accelerate corrosion significantly. When released into the atmosphere, SO₂ reacts with moisture to form acidic compounds that attack the steel surface. These reactions form salts such as ferrous sulphate, which can settle in pits and crevices on the steel.

Unlike traditional rust, these salts are often white or light in colour and are notoriously difficult to remove—even with aggressive blast-cleaning. Worse still, these sulphates can regenerate sulphuric acid, creating a self-perpetuating cycle of corrosion that undermines the steel from the inside out. As the rust expands in volume compared to the original steel, it can also crack or lift any protective coatings applied after the fact.

Why Does Steel Rust

What’s the difference between sulphate and chloride corrosion?

Marine Environments: The Chloride Challenge

Near coastal environments, the primary concern shifts from sulphur to chlorides, such as those found in sea spray. Chlorides are hygroscopic, meaning they absorb moisture from the air. Tests have shown that while sulphate-driven rusting can occur at relative humidity levels below 70%, chlorides can initiate corrosion at humidity as low as 40%. This means that even in seemingly dry conditions, chloride-rich environments can cause aggressive corrosion—often invisible until the damage becomes severe.

A Chain Reaction You Don’t Want

Both sulphate and chloride-induced corrosion are cyclical—each stage of corrosion sets the stage for the next. Without intervention, the process continues, gradually undermining the structural integrity of the steel. Superficial rust isn’t just cosmetic: it’s often a signal that a deeper, more destructive process is underway.

How do you prevent steel from rusting?

Prevention Is the Only Real Cure

The key takeaway? Rust is not just inevitable—it’s predictable. The solution lies in early intervention and environmentally appropriate protection. By considering the steel’s environment from day one, and applying robust protective measures like hot dip galvanizing, it is possible to interrupt the corrosion cycle entirely. Galvanizing provides not just a barrier, but a long-term solution that resists both atmospheric and chemical attacks—even in the harshest marine and industrial settings. The cost of doing nothing is far higher than the cost of protecting your assets from the start.
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Iqbal Johal
As Marketing Manager at Galvanizers Association, Iqbal Johal leads strategic communications to promote the benefits of hot dip galvanizing across the UK and Ireland. He champions galvanized steel as a sustainable, circular material, highlighting its durability and role in low-carbon construction. Iqbal oversees the Association’s outreach through publications, digital content, technical resources, and social media, significantly raising the industry’s profile. He also manages the annual Galvanizing Awards (GAGAs), celebrating innovation and excellence in architecture and engineering. A strong advocate of early-stage consultation, he encourages architects and engineers to engage with galvanizing experts to ensure optimal design, compliance, and long-term performance.
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