Wear chemical-resistant gloves, a lab coat and goggles as a precaution when handling acids. Strip off the anodized coating in a stripping solution bath. Pour deionized water into a stainless steel bath. Heat, by gas firing, until the water is between 140 and 160 degrees Celsius. Add nitric and oxalic acid until the total volume is around 380 gallons. You should be able to see through several feet of solution.
Add anodized aluminum parts. Within 15 minutes, metal oxides should be removed.
Remove aluminum parts from the bath, and rinse with deionized water. Buff or sand to repair scratches and gouges; reanodize, if necessary.
Mask off the area around the surface to be repaired, using masking tape.
Use sodium hydroxide to remove the damaged metal oxide coating from the surface. Flush away the sodium hydroxide with deionized water.
Pass sulfuric acid through a tubular cathode rod, while applying the cathode rod to the metal surface to be reanodized. The cathode rod will release positive hydrogen ion charges at the surface, while the surface itself will act as an anode, accumulating metal oxides. Continue until metal oxides have accumulated to the thickness characteristic of the undamaged surface.