This problem was unavoidable and the more fixtures in a facility, the higher the eventual risk of filter degradation.Īnother major challenge of traditional no-UV lighting was the issue of space. ![]() Imagine employees’ dismay to find out these gold filters had failed by noticing an entire batch of product had been cured, and thus ruined. The filter worked to block the UV range of the light spectrum, but over time, filters commonly degraded and UV light was able to break through, resulting in expensive production failures. Traditionally, in order to light clean rooms and production facilities that require no-UV lighting, fluorescent tubes dipped or wrapped in gold filters were utilized. The no-UV LED lighting technology developed in recent years has eclipsed older technology by leaps and bounds and provides options for managers and CEOs that solve the no-UV lighting problems of the past in remarkably efficient ways.įluorescent Tubes, Unreliable Gold Filters Issues such as filter degradation, finding ceiling space, poor visibility, and flicker have plagued production facilities and managers, but no more. For years, companies that manufacture certain kinds of products have been faced with extremely limited options for UV-free lighting. Clean rooms requiring no-UV lighting are utilized in industries such as microprocessor manufacturing, pharmaceutical labs, and facilities that manufacture contact lenses, among many others. UV light causes some materials and products to cure or harden, which means that lighting for these facilities must be strictly controlled so as not to ruin batches of product. No-UV or UV-free lighting is commonly used in certain production facilities or clean rooms that use UV curing in their manufacturing processes.
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