The laser leaves the inorganic substrate untouched because the light reflects the laser without causing any strain or damage. These materials can include anything from paint to rubber to algae because only these contaminants absorb the light. The laser operator will clean the top layer by hitting it with short pulses of light that target only organic materials. The radiation an industrial cleaning laser emits can be modified to match the surface material at hand. How does laser stripping protect the underlying surface (the substrate)? If you are conserving historic metal components, choosing a cleaning procedure with no potential chemical reactions, no abrasion, and no moisture or contamination is always the safest choice for the final product. Laser cleaning, however, does not interact with the underlying inorganic surface even with direct exposure. While chemicals can be carefully selected for limited reactions and minimal surface damage, that is dependent on knowing exactly what materials make up the components the wrong chemicals can etch away fine details and weaken the material before you have a chance to stop the procedure. Depending on the exact nature of your project, you might be restoring a one-of-a-kind setting, tool, or part. You can drastically reduce the risk of restoration error. It also reduces noise pollution, so other aspects of restoration can continue in the area. Instead of restoring surfaces with grinding and sanding, which can be dangerous for the person operating the tools and can even lead to a project slow-down if the dust and debris are too much of a health hazard, laser cleaning works without contaminating the air. The binding agents and construction materials approved for widespread usage even thirty years ago are now considered toxic, especially if small bits of the contaminants are released into the air. Industrial and commercial restoration projects can be dangerous. Laser cleaning reduces hazardous conditions for workers or visitors in the area. However, our cleanLASER CL-1000’s beam can strip any surface the light touches, even if it is beyond the reach of traditional cleaning tools. Every artifact from metal art to tools and hardware have a lot of grooves and sharp corners that can collect the debris, lubricant and organic build-up from years of exposure, and it always accumulates in the hardest to reach places. The process will not leave any portion of the part uncleaned. Using a laser, on the other hand, will leave you with a perfectly clean surface with only the contaminants or unwanted layers removed. It also creates high amounts of chemical waste. It also leaves behind solvent and chemical residue that can be hazardous to any fragile materials and goods and future users in proximity to the surface. Chemical cleaning can be just as risky because of any potential reactions. Most stripping procedures involve using friction and rough surfaces to scratch off residue, and even the most finely controlled devices lead to some risk of damage. Whether you need corrosive substances removed from tiny crevices in tools or your need layers of material stripped from a surface without damaging the underlying materials, traditional methods do not get the job done. Laser cleaning protects the surface of your parts and materials. What are the advantages of using laser cleaning for your restoration projects?
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