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Titanium and Titanium Alloys - Conditions for the Formation and Repair of the Titanium Oxide Film and that Influence Corrosion Resistance

Titanium is a highly reactive metal. Fortunately the oxide film which forms spontaneously and is always present in oxidising environments is stable and self healing if damaged. It is this film which gives titanium its outstanding resistance to corrosion in a wide range of aggressive media.
Conditions for the Formation and Repair of the Titanium Oxide Film

The question often asked is, “what is meant by ‘oxidising environment’?” In fact the titanium oxide film is self supporting and self healing not only in oxidising environments, but also in neutral and mildly reducing conditions. For titanium ‘oxidising’ means conditions where a critical minimum level of oxidising agent is present in the media, under conditions where it can react with titanium preferentially to repair or inhibit further breakdown of the oxide film. This covers a wide range of chemicals, mixtures, process conditions and products.
Examples of Conditions for the Formation and Repair of the Titanium Oxide Film

In practice, air, moisture, moist gases, water, even heavily polluted brackish water and sea water will support the oxide film. Deaeration of an aqueous media does not affect the corrosion resistance of titanium, because water alone supports the oxide film. Only traces (e.g. ppm) of moisture or oxygen are required to maintain passive behaviour in most environments. Notable exceptions are chlorine gas, red fuming nitric acid and methanol where specific concentrations of moisture from 1.5% up to 10% are required to support the oxide film on titanium alloys under the worst conditions of environment and temperature.
Environments that will Attack Titanium

Pure reducing acids, hydrochloric, sulphuric, phosphoric etc, will attack titanium in proportion to concentration and temperature. Titanium is inhibited from attack, and its oxide film supported by the presence of limited concentrations of oxidising ions such as Fe3+, Cu2+ and others shown below. Inhibition becomes less effective as acid concentration and temperature increase. No inhibition is available to prevent breakdown of the titanium oxide film by hydrofluoric acid and acidic fluorides.