![]() ![]() However, the road-facing side of the car turns into one big sandblasting cabinet at highway speeds, and those dips and coatings wear off over time. Those are further augmented in the final assembly plants when freshly made vehicle bodies are dipped in baths of anti-corrosion agents before the painting process. Modern sheet steel also comes off the roll with highly durable coatings. However, those metals are expensive and automakers use them sparingly as a result.Īlloying elements added into cars’ steel such as nickel and chromium can help stave off rust, but nothing is foolproof-everything eventually corrodes. Aluminum and magnesium components are becoming popular not only because of their light weight, but also because they corrode at rates that are unnoticeable within a human lifetime. A huge amount of testing and material science is dedicated to keeping your car from dissolving away beneath you. This is why automakers do so much to try and prevent corrosion. It also explains why cars in northern climates where salt is used in winter as well as cars that spend a lot of time near the ocean are prone to rot. ![]() For drivers, this means that dirty or salty water trapped somewhere in the car’s body makes that spot rust faster. When electrolytes are introduced to a chemical reaction, they speed up the exchange of molecular components. Road salts and other contaminants dissolved in water act as electrolytes. The Best Tools to Keep in Your Car’s Emergency Kit.Completely untreated raw sheet steel can rust through in as little as a few years. Very poorly made cars in the 1970s began showing surface rust as soon as they hit the docks. However, this added strength comes at a cost, as it adds impurities that accelerate the formation of rust.Įxposed steel rusts at different rates depending on several factors: alloy components, thickness, the environment the steel lives in, and the type of heat treating the steel undergoes. Adding a dollop of carbon to iron creates steel, which offers dramatic improvements in flexibility, tensile strength, and formability. Unfortunately, iron alone isn’t a particularly good material for building cars, so today’s cars typically use steel alloys. Examine an old iron engine block and you’ll see a thin surface layer of rust but little penetration into the metal. Pure iron doesn’t oxidize as aggressively. This breakdown is the result of oxidation, which is the process where iron surface molecules react with oxygen in the environment and produce a new molecule, Fe 2O 3, otherwise known as iron oxide. Rust forms as a result of the electrochemical breakdown of iron-based metals. Play icon The triangle icon that indicates to play Why Do Cars Rust? ![]()
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