Excellent industrial water chiller provider? We have been helping customers in more than 50 countries to solve the overheating problems in their machines with our constant commitment to stable product quality, continuous innovation and understanding of customer needs. Operating with latest technology and advanced production lines in 18,000m2 ISO qualified production facilities with 400 employees, our production capacity now reaches 100,000+ units per year. All S&A industrial water chiller systems are REACH, RoHS and CE certified. Find extra info on industrial water chiller manufacturers.
In the actual use, there are often some urgent problems that need to be solved in mold. And the most important one is the cleaning of the mold. Some metal molds are used to be the prototyping of high temperature hot melting material. When the products have finished and are taken out from the molds, there are often material residue left on the molds. This requires people to clean the molds, for this will affect the next product making, but that would be quite time consuming. What’s more, molds are easy to get rusty. Since most of the industrial molds are made from steel, they would become rusty after being used for a period of time. And molds need to be cleaned properly before they are used on the machine. However, traditional cleaning would cost a huge labor and cost, which is very bad for the manufacturers.
The type and thickness of the materials to be processed: Generally speaking, the thicker the materials, the bigger the cutting difficulty. That means thicker materials require laser cutters of higher power. And there are two common types of laser cutters. One is CO2 laser cutter and the other is fiber laser cutter. For cutting non-metal materials, CO2 laser cutter is often the ideal option. And for metal materials, fiber laser cutter works better. Many people would consider the ratio of investment and output. It is normal that the higher the power of the laser cutter, the more expensive it will be. And different configurations inside the laser cutter also lead to price difference.
In practical application scenarios, the laser processing requirements of most common products in industrial manufacturing are within 20 mm, which is just in the range of lasers with a power of 2000W to 8000W. Users are very aware of their products and processing needs, pay more attention to the stability and continuous processing capabilities of high-power machines, and will choose products that better meet their own needs. Laser processing equipment in the medium and high power segment can meet most processing needs, with high-cost performance, and the industry chain is relatively mature and perfect. It will occupy the most important market in recent years and the next few years.
S&A CWFL series air cooled chillers could be your ideal cooling solution. They are designed with dual temperature control functions and applicable to cool 500W to 30000W fiber laser. Sizing the chiller is generally determined by the power of the fiber laser. CO2 laser is commonly used in laser cutting, laser engraving and laser marking on non-metal materials. But whether it is DC tube (glass) or RF tube(metal), overheating is likely to happen, causing expensive maintenance and affecting the laser output. Therefore, maintaining consistent temperature is of utmost importance to CO2 laser. Find additional info at https://www.teyuchiller.com/.