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Laser welding is a technique used for joining materials with precision and speed. Products welded using laser technology can be found in various industries, including automotive, aerospace, electronics, and medical devices. Compared to traditional welding, laser welding offers distinct advantages such as deeper and narrower welds, fine and strong weld points, minimal heat-affected zones, and reduced deformation.
Our laser welding machine uses a laser beam as the heat source, utilizing laser pulses to heat materials in a small area. The energy quickly spreads through the material, allowing rapid melting, evaporation, and solidification within milliseconds. This results in precise, strong, and visually appealing welds. The short heating time and minimal heat-affected zone reduce deformation, often eliminating the need for further processing. The welder is perfect for micro welding, small workpieces, and automated mass production, providing accurate positioning and the ability to weld various shapes and areas that are hard to reach.
Laser welding technology offers numerous benefits for joining metals, including high precision, minimal thermal distortion, and strong, aesthetically pleasing welds. This makes it ideal for various industries such as electronics, automotive, and aerospace, where quality and precision are paramount.
Laser welding is known for its precision and efficiency in joining different metals. It's ideal for applications that require high accuracy and speed, making it suitable for various components and intricate designs.
Choosing a quasi-CW (Quasi-Continuous Wave) laser welding machine with a galvanometer scanner ensures fast, precise, and high-quality welds. This technology is ideal for precision spot welding of both metal and non-metal components.
The multi-axis double-station laser welding machine offers a fast and precise solution for joining two different metals. Using oscillation welding, it delivers high-quality beam control, making it perfect for precise spot welding of various components.
Traditional methods for processing metal hardware involve several steps such as punching, polishing, and bending, which can be inefficient, time-consuming, and costly. The mold-making process alone is lengthy and expensive.