Discover the transformative power of aluminum laser welding in aerospace and electronics industries. From overcoming challenges to enhancing efficiency and quality, this blog offers comprehensive insights for professionals. Explore basics, materials, equipment, safety, and selection to unlock the full potential of laser welding technology
Aluminum is a metal commonly used in manufacturing. This material is lightweight and corrosion resistant, making it an ideal choice for various welding materials. Welding aluminum may face problems such as oxidation layer and high thermal conductivity. Compared with traditional welding methods, laser welding aluminum has obvious advantages inquality and efficiency.
The demand for portable laser welders is increasing in the field of welding technology. When we say "portable laser welder", we mainly mean handheld laser welder. The flexibility of handheld laser welders allow operators to easily carry and use them in a variety of welding scenarios.<br /> <br /> This article will take you through the working principles and advantages of portable laser welders and help you choose the right machine.
IntroductionStainless steel, known for its corrosion resistance and strength, is a material widely used across various industries. Leapion’s laser cutting stainless steel machines bring innovative solutions to handle this robust material. With a focus on precision, efficiency, and versatility, let's
IntroductionMetal cutting has always been a demanding task, requiring precision, speed, and adaptability. Leapion’s metal cutting fiber lasers stand as a testament to innovation in this challenging field. This piece explores how Leapion is transforming metal cutting across various industries with th
IntroductionThe world of metal processing has been forever changed with the advent of metal fiber laser cutting machines. Leapion stands out as a pioneer, offering state-of-the-art metal fiber laser cutting solutions. This article will explore the unique aspects and applications of Leapion's metal f
IntroductionAluminum, with its unique properties, requires specialized cutting techniques. Leapion leads the way in fiber laser cutting aluminum, offering unparalleled precision, efficiency, and sustainability. This article will examine Leapion’s distinctive approach to fiber laser cutting aluminum.
IntroductionCNC (Computer Numerical Control) fiber laser cutters have revolutionized the way we approach cutting and engraving tasks. Leapion, a global leader in laser technology, presents its range of CNC fiber laser cutters, designed to meet the precise needs of various industries. This article wi
IntroductionSheet metal CNC laser cutting is a technology that has revolutionized precision engineering. Leapion offers cutting-edge solutions tailored for various applications and industries. This article explores the world of Leapion's sheet metal CNC laser cutting machines. The Innovation Behind
With the transformation and upgrade demands in areas like rail transportation, construction machinery, large shipbuilding, and steel structures, the manufacturing needs for large equipment and plates have been booming, leading to a growing market for ultra-large plate processing and cutting.Traditio
[Case Alert] Learning from Experience: How Low-Quality Laser Cutting Lenses Affect Production
The Challenge of Aluminum Beam Expansion in Laser Cutters Laser cutters often combine steel beds and aluminum beams. Steel provides stability, while aluminum’s lightness aids high-speed operation. Despite the benefits, this mix can reduce a machine’s accuracy due to different expansion rates under temperature changes.
IntroAs technology continues to evolve, so do the tools and machinery that drive industries worldwide. One such advancement is the Fiber Laser Cutting Machine, a game-changer in the manufacturing sector. In this article, we dive into the working principles of fiber laser cutting machines and their w
IntroductionFiber laser cutting machines have revolutionized the manufacturing industry, offering unprecedented precision and efficiency. However, to keep these powerful machines running at peak performance, regular and meticulous maintenance is crucial. In this article, we'll walk you through a pra
IntroductionThe rapid advances in technology have seen significant improvements in the manufacturing sector. One area where these advancements have been especially notable is in the realm of fiber laser cutting machines. With enhanced precision, speed, and flexibility, these machines are revolutioni
Are you in the market for a fiber laser cutting machine? These powerful devices have revolutionized the manufacturing industry with their precision and efficiency. However, with so many options on the market, it can be challenging to find the one that perfectly aligns with your needs. In this comprehensive guide, we’ll walk you through the critical factors you need to consider when choosing a fiber laser cutting machine.
In this article, we will compare the functions, advantages, disadvantages and typical applications of fiber laser cutting machines with traditional cutting machines.At the end, we will provide a clear picture, and you can choose the corresponding cutting machine according to your actual needs.
The MOPA pulsed fiber laser has adjustable pulse width, wide frequency range, and more adjustable parameters during its processing. Therefore, more materials can be processed, the processing effect is better, the application is more extensive, and the market demand is growing every year.
Laser cutting replaces mechanical knives with invisible lasers. It has the characteristics of high precision, fast cutting, not limited to cutting patterns, automatic typesetting to save materials, smooth incision, low processing cost, green and pollution-free, etc. Let's take a closer look at the principle of laser cutting.
Views: 8 Author: cony Publish Time: 04-10-2021 Origin: Site
The laser marking machine uses a laser beam to make permanent marks on the surface of various materials.
Marking has the effect of exposing deep materials by the evaporation of surface materials, resulting in beautiful designs, trademarks, and texts being engraved. Laser marking machines are classified as co2 laser marking machines, UV marking machines, fiber laser marking machines, and Mopa laser marking machines. Laser marking machines are mostly used where finer and higher precision is needed.
Used in electronic components, integrated circuits (IC), electrical appliances, mobile communications, hardware products, tool accessories, precision instruments, glasses and watches, jewelry, auto parts, plastic buttons, building materials, and PVC pipes.
Compared with traditional processing technology, laser marking has unparalleled advantages:
1. It has the advantages of no touch, no cutting power, and minimal thermal effect, ensuring the workpiece's original accuracy.
2. Flexible processing methods can meet the demands of mass production in an industrialized environment;
3. Laser marking is extremely fine, with lines ranging from millimeters to micrometers. Laser marking technology's markings are incredibly difficult to mimic and modify, which is critical for product anti-counterfeiting.
4. The combination of a laser processing device and computer numerical control technology can produce high-efficiency automated processing equipment that can print a variety of terms, symbols, and patterns, as well as simple software to design marking patterns, adjust marking material, and adapt to the high-efficiency and fast-paced demands of modern manufacturing.
5. Laser processing has no pollution source and is a clean and pollution-free high environmental protection processing technology;
6. It has wide adaptability to materials, can make very fine marks on the surface of a variety of materials and has very good durability
The main components of fiber laser marking machine
1.Fiber laser: This is the part that produces laser light. The fiber laser marking machine uses an imported pulsed fiber laser with a high output laser mode and a long life span. It is intended to be mounted in the marking machine's casing. It is also the most important component of the entire fiber laser marking machine.
2.Galvo scanning system: The use of position sensors and the design idea of the negative feedback loop further ensure the accuracy of the system, and the scanning speed and repeat positioning accuracy have reached a new level
3.Computer control system: The computer control system is the center of control and command of the entire laser marking machine, as well as the carrier of software installation. Through the coordinated control of the acousto-optic modulation system and the galvanometer scanning system, the marking of the workpiece is completed.
Laser marking machines are made with fiber lasers. The efficiency of the beam is excellent. It has a 1064nm output core. The machine's total life is estimated to be about 100,000 hours. When compared to other laser marking techniques. The device's life is extended, and the electro-optical conversion efficiency is greater than 28%.
The conversion efficiency of 2% -10% has a significant advantage over other forms of laser marking machines. It performs admirably in terms of energy conservation and environmental security.
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E-mail: cony@leapion.com
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