Top industrial laser chiller manufacturer and supplier? 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. Read more information at industrial 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.
As we know, ultrafast laser refers to pulse laser with pulse width of equal or less than picosecond laser level. That makes it have very high peak power. For transparent materials like glass, when the super high peak power laser is focused inside the materials, the non-linear-polarization inside the materials changes the light transmission feature, making the light beam to self focus. Since the peak power of ultrafast laser is so high, the pulse keeps focusing inside the glass and transmitting to the inside of the material without diverging until the laser power is not enough to support the ongoing self focusing movement. And then where the ultrafast laser transmits will leave silk-like traces with diameter of several micrometer. By connecting these silk-like traces and imposing stress, the glass can be cut perfectly without burr. In addition, ultrafast laser can perform curve cutting quite perfectly, which can meet the increasing demand of curved screens of the smart phones these days.
According to relevant information, 500W laser cutting equipment became the mainstream in 2014, and then quickly evolved into 1000W and 1500W, followed by 2000W to 4000W. In 2016, laser cutting equipment with a power of 8000W began to appear. In 2017, the fiber laser cutting machine market began to move towards the era of 10 KW, and then it was updated and iterated at 20 KW, 30 KW, and 40 KW. Fiber lasers continued to develop in the direction of higher-power lasers. S&A was established in 2002 and has 20 years of experience in chiller manufacturing. S&A has specially developed CWFL series chillers for fiber lasers, in addition to chillers for CO2 laser equipment, chillers for ultrafast laser equipment, chillers for ultraviolet laser equipment, chillers for water-cooled machines, etc. Which can meet the cooling and cooling requirements of most laser equipment.
Fiber laser has the highest photoelectric conversion efficiency among all the laser sources and it is widely used in laser cutting and laser welding in metal fabrication. However, it is inevitable to generate heat. Excessive heat will lead to poor laser system performance and shorter life. To remove that heat, a reliable laser water cooler is highly recommended. S&A CW series CO2 laser chillers do a great job in controlling the temperature of the CO2 laser. They offer cooling capacity ranging from 800W to 30000W and are available in small size and big size. Sizing the chiller is determined by the power or the heat load of the CO2 laser. Find more info on https://www.teyuchiller.com/.