The Ultimate Guide to Water Spot Removal

In Australian summer, you must never work on hot panels. Use an infrared thermometer to ensure panel temperatures are below 30°C. If the car has been driven or parked in the sun, move it to a shaded, well-ventilated garage and allow at least 2 hours for the metal to cool. Working on hot paint causes chemicals to flash instantly, leading to secondary staining.

Perform a thorough wash using the three-bucket method (Wash, Rinse, Wheels). Use a high-foaming soap to encapsulate red dust and salt crystals. This prevents 'marring'—micro-scratches caused by dragging dirt across the paint during the water spot removal phase. Pay extra attention to window seals where minerals often hide.

After washing, use a fine-grade clay bar with plenty of lubricant to remove 'above-surface' bonded contaminants. In Australia, this often includes baked-on bug guts and sap. A smooth surface allows the chemical water spot remover to sit flush against the mineral deposit rather than being blocked by surface grit.

Wipe the affected panels with a 15% IPA solution. This removes any existing waxes or sealants that might be 'capping' the water spots. Removing these layers is critical because the acidic water spot remover needs direct contact with the calcium deposits to dissolve them effectively.

Run your fingernail gently across the spot. If you can feel a raised edge, it is a Type I (Above Surface) deposit. If the spot looks like a crater or a 'ring' in the paint, it is a Type II (Etched) spot. Type I can be solved chemically; Type II requires mechanical abrasion (polishing).

Apply 3-4 pea-sized drops of a dedicated water spot remover to a damp microfiber applicator. Work in a small 40x40cm section. Do not spray directly onto the paint in windy Australian conditions, as overspray can dry on adjacent hot panels and cause damage.

Allow the product to dwell for 30-60 seconds. In high humidity or heat, this time may be shorter. You are looking for the mineral 'crust' to begin softening. Do not allow the product to dry. If it begins to flash, apply a small amount of fresh product to reactivate the lubricants.

Using light to medium pressure, work the applicator in a cross-hatch pattern (horizontal then vertical lines). This ensures the acidic solution is forced into the microscopic pores of the clear coat where minerals are lodged. Avoid circular motions which can create uneven results.

Immediately rinse the section with a heavy stream of water. Neutralising the acid is vital. Use a pH-neutral soap solution during this rinse to ensure all acidic residue is gone. For professional results, follow with a final rinse of distilled water to ensure no new spots form.

Dry the area with a dedicated drying towel and inspect using a high-CRI LED detailing light. If mineral 'rings' are still visible but the surface feels smooth, the minerals are gone but the etching remains. If the surface is still rough, repeat the chemical application once more.

If Type II etching is present, fit a polishing pad to your DA polisher. Apply 4 drops of fine compound. Set the speed to 3 or 4. This process removes a microscopic layer of clear coat (typically 1-2 microns) to level the surface and remove the 'crater' left by the mineral.

Work the polisher in slow, overlapping passes. Move at a rate of 2-3cm per second. In the Australian heat, work smaller areas to prevent the polish from drying out. Check the temperature of the panel frequently with the back of your hand; it should feel warm, never hot.

For water spots on glass, use a dedicated glass polish containing Cerium Oxide. Apply with a firm foam pad. Glass is much harder than clear coat, so you can apply more pressure and speed. This is essential for restoring visibility during night driving and heavy rain.

Once all spots and etching are removed, perform a final wipe-down with an IPA-based prep spray. This removes all polishing oils and chemical residues, leaving a 'naked' surface ready for the application of a protective layer.