This 5 oz. (141 g) aerosol spray on artificial ice crystals can is filled with artificial ice crystal spray that can be used on windows, mirrors, and all glass surfaces. For a fascinating, decorative “Jack Frost” effect on any glass surface. This window Christmas ice spray will highlight any home, business or car for the holiday season. Not for sale outside the USA. All shipments must be shipped ground freight.
Easy to apply. Easy to clean up.
Not for sale outside the USA. All shipments must be shipped ground freight.
Directions
Shake well before using.
1. If the artificial ice spray has been exposed to freezing conditions, allow sufficient time to thaw prior to use. The ice crystal spray can must be kept at room temperature for several hours before spraying.
2. Hold can upright 12 to 18 inches from surface to be sprayed. Apply an even, wet coat. The spray will be clear when applied, but ice crystals will form within minutes of application.
3. If clogging develops, remove spray button and soak tip in warm water for a few minutes. Do not place can itself in hot water. Do Not stick a pin or any other object into the can. Gently replace spray button with a twisting motion, with top of can and spray button opening pointed away from you. After spraying you can turn the can upside down and depress the valve for several seconds to clean out the nozzle.
4. Avoid spraying on furniture, walls, curtains and rugs. Ice crystals can be removed with a brush or dry cloth. If spray should get on woodwork, it can be removed with an all-purpose cleaner.
How to remove artificial ice crystals on windows:To remove the spray on ice crystals from decorated windows and mirrors, spray surface, or wipe surface with a damp cloth, using warm water or a glass cleaner. Remove with a squeegee.
Caution:
Contents under pressure. Do not puncture or incinerate. Do not use or store near heat, sparks, open flame, red hot surfaces or other sources of ignition, in direct sunlight or where temperature will exceed 120 degree Fahrenheit. Use in a well ventilated area only. Do not intentionally inhale vapor or spray mist. Avoid contact with skin and eyes. In case of skin or eye contact, flush with water. Do not take internally. Do not allow pets to eat snow.
Storage:
Prevent this container from coming in contact with water for a prolonged period of time. Always keep container in a cool, dry place. The user of this product assumes all risks of use, storage and handling not in accordance with its directions and cautions. Container may explode if heated. The snow content is under pressure.
Keep out of reach of children.
Made in USA.
Contains NO CFCs or other ozone-depleting substances. Federal regulations prohibit CFC propellants in aerosols.
Formation of Artificial Ice Crysals Information:
The visual complexity of ice is familiar to anyone who has ever studied a snowflake or seen the crystal patterns on a frozen windshield. Rene Descartes was the first to study these patterns over 300 years ago, but equations describing them were not derived until 200 years later. In modern times, with the help of computers and numerical analysis techniques, these equations are used to artificially generate snowflake-like patterns.
The visual appeal of patterns in ice has not been lost on the visual effects industry, as many recent movies have prominently featured this effect and have all contained solidification sequences. Despite this popularity, there has been relatively little work in the computer graphics community that formally examines how these interesting patterns arise. The techniques currently used in visual effects usually involve an ad-hoc combination of particle systems and 2D compositing. While these techniques can generate acceptable results, they can be extremely difficult to control and the quality varies widely.