The application of metallic and iridescent finishes in an architectural process requires expert skill, the right kinds of materials and equipment, and a good air supply. Metallic and iridescent coatings are translucent and easily penetrated by ultraviolet light. Spray paints and polyurethane semi-gloss or satin coatings such as those used for sculptures, signs and watercraft are smooth finishes.
The most common type of iridescent finish is on the many different types of available lighting, including outdoor ceiling lights, Peruvian, Quoizel and Tiffany lamps, and indoor recessed lighting. Iridescent light bulbs such as flame-shaped halogens and novelty Christmas lights come in many different styles and finishes.
Iridescent powders are mixtures of Mica -- a light, soft heat-resistant mineral -- and color pigments that give skin and other facial and body features a glossy sheen, glitter or glow. These powdery or creamy cosmetic minerals are used alone or mixed with foundations, moisturizers or other cosmetics.
A shiny iridescent finish seems to recede optically. These finishes are best for highlights and accents. The iridescent "rainbow" finish is also known as aurora borealis in that it can totally change the original color of a bead in different light, or when turned in different directions under light. Iridescent bead colors and stylized or plain buttons come in matte or metallic finishes. On fabrics, organza and taffeta can both have iridescent finishes that make cloth appear to glisten under the right lighting. Sequins also give off an iridescent finish.
Dishes, glass, kitchen appliances, airbrush paints, wall finishes and sometimes even meats such as roast beef can have an iridescent color or streak. Some fishing rods and lures are made with a polychromatic or prismatic iridescent effect to attract fish with the reflection in the water.
You can produce an iridescent reflecting surface by using mica powder with a metal oxide mixture, such as titanium oxide. Titanium oxide is a white powder used as a pigment because when it's mixed with other powders or minerals, it changes the color of the mineral depending on how much titanium oxide is used. The chemical reaction between the elements make the color, or pigment, of the base mineral.