High Power Solid State LaserPosted by Mike on July 31st, 2017 Laser die-cutting machine is a fully automatic laser cutting, no vibration deviation, high precision and stability. No need to make knife mold, by the computer directly control the green laser pointer cutting, and not limited by the complexity of the graphics, you can cut the traditional die can not complete the cutting needs. As the laser die-cutting technology is directly controlled by the computer, without the need to replace the knife template, can achieve different layout between the fast switching between the parts, saving the traditional die-cutting tool change and adjust the time, especially for short version, Cut processing. Laser die-cutting machine with non-contact characteristics, change live fast, short production cycle, high production efficiency.
The cost of burning laser pointer die-cutting technology mainly includes equipment cost and equipment use cost, but the cost of traditional die-cutting technology, including the cost of making tooling, proofing equipment costs, the cost of traditional die-cutting equipment, manual adjustment costs, time waiting costs. For the traditional die-cutting technology, the production of tooling costs are very expensive, for many small and medium-sized printing enterprises, the Indian knife mold production costs are also different. Also need to have experienced die-cutting workers master, professional installation and adjustment. In addition, the need to store the knife template space, the need for a variety of auxiliary tools, there are a variety of uncontrollable waste, the use of traditional Daomo the higher the cost! Despite the faster cutting speed and higher productivity of high-power solid-state lasers for metal 2D cutting, most metal manufacturers are excited, but it is still costly to control and manipulate the power of such lasers. Machine tool manufacturers continue to introduce higher power lasers. But in order to give full play to this advantage, they need to design to meet the stringent requirements of the red laser pointer system. The machine itself must be able to control the changes that occur with this high power cutting to ensure that the machining is not only fast and reliable, so that the manufacturer can give full play to the performance of the laser. Although solid-state lasers are faster and easier to use, this technology is also faced with its own challenges and challenges. Since the average width of the 2D laser is very narrow, the flow of auxiliary gas through the incision is very small, making it difficult to eject the material from the incision. So this technique is usually used to process thin materials. This is the opposite of the demand for lasers with increasing power in the sheet metal processing industry. Because high yields can be directly converted to higher speed cutting, thicker material handling capacity and better edge quality. The technique can provide a very small, another very large two very different beam diameter control range. By simply aiming to control the diameter of the laser beam is not a sufficient solution, this fiber technology is particularly popular for any plant that seeks to process a full range of material types and thicknesses throughout the day's machining tasks. In the use of laser pulse spot welding, the solder joints are prone to crack, resulting in decreased welding strength, stability is also greatly reduced. However, the traditional high power laser beam is poor in mass, bulky, high maintenance cost and low photoelectric conversion efficiency, which restricts its consumption on the consumer electronics products to a certain extent. The traditional laser beam, YAG and other continuous laser welding aluminum alloy can avoid the crack. Applications. In particular, the structural parts of consumer electronics products have the characteristics of thin thickness, small volume and high precision. The traditional continuous laser welding is easy to produce large deformation, welding and burning. Compared with traditional lasers, fiber lasers have good beam quality, small size, high precision, and high photoelectric conversion efficiency. In the welding of consumer electronics products, aluminum alloy structural parts, can be a good way to avoid the traditional laser welding when there are some shortcomings and problems. In this paper, a comparative study of fiber 5mw laser pointer and widely used pulsed lasers on aluminum alloy structures for consumer electronics products has been conducted to determine whether fiber lasers can be successfully applied to such products. http://my.mmosite.com/7765026/blog/item/market_analysis_of_industrial_lasers.html https://www.evensi.us/the-future-potential-market-of-lasers-b15street/219903253 Like it? Share it! More by this author |
