fiber laser marking machine parameters


Fiber Laser Marking Machine Parameters

In today's fast-paced world, we all crave convenience and speed in every aspect of life. The same holds true for the manufacturing industry, where faster production rates and improved product quality are essential for staying ahead of the competition. The advent of fiber laser marking machines has catered to these demands by providing high-speed, high-quality marking capabilities. This article focuses on the parameters involved in fiber laser marking machines to help you understand what makes them such a popular choice in the industry today.

What is Fiber Laser Marking Machine?

Fiber laser marking machines are cutting-edge marking devices that use fiber laser technology to engrave or mark on almost any material. These machines use a focused beam of light to produce high-contrast, permanent markings, perfect for part identification, barcoding, and serialization. From medical devices to automotive parts, fiber laser marking technology has revolutionized the marking industry by offering fast, precise, and efficient marking solutions suited for several applications.

Fiber Laser Marking Machine Parameters

1. Laser Wavelength

The laser wavelength determines how the laser interacts with the material surface, and the coverage area of the mark. The choice of laser wavelength depends on the material being marked, and the required mark quality. Most commonly, fiber laser marking machines use wavelengths from 1064nm, 532nm, and 355nm for marking on different materials.

2. Laser Power

Laser Power is the amount of energy the laser delivers to the material surface. The laser power usually ranges from 10W – 100W, depending on the marking requirements. The power requirement depends on the material type, marking speed, and the depth of the mark.

3. Pulse Duration

The Pulse Duration refers to the duration for which the laser beam is on the material surface during marking. It helps in determining the contrast, depth, and quality of the mark. Shorter pulse durations are effective for finer and more intricate marks, while longer pulse durations are required for deeper marks.

4. Velocity

Velocity refers to the distance traveled by the laser beam per unit time during marking. It is crucial in determining the marking speed, which in turn affects the production rate. The velocity can be adjusted according to the material properties and the marking requirements for achieving efficient and accurate marking.

5. Spot Size

Spot size refers to the width of the laser beam on the material surface. It determines the resolution and accuracy of the mark. Smaller spot sizes are ideal for intricate work and fine details, while larger spot sizes are used for larger marks.

In Conclusion

Fiber laser marking machine parameters play a crucial role in determining the efficiency and quality of the marking solution. Fiber laser marking technology has come a long way and is now widely used across several industries. With its non-contact marking capabilities and precise, permanent marks, fiber laser marking technology is the perfect choice for companies that want to stay ahead of the curve in this fast-paced world.


Professional Laser Marking Machine Manufacturer Since 2009. Correct Pack is a technology-based enterprise focusing on the design, development and production of marking and coding products, which are widely used in food, pharmaceutical, daily chemical, hardware and other industries.
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