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The production of small QR codes with laser technology is one of today’s most modern and effective methods, which offers innovative solutions in many industries. The use of laser technology is not only beneficial in terms of accuracy and speed, but also enables the precise machining of various materials.

detailed miniature marking

Lasers are capable of creating extremely small and detailed patterns, which is essential for small QR codes. Such codes require precise processing of each point and line in order for the code to be read easily and error-free. Lasers also work quickly and efficiently, resulting in significant time savings during the manufacturing process.

a diversity of materials

One of the outstanding features of laser technology is that it can be used on many different materials. Whether it is metal, plastic, glass, ceramic or even organic materials, lasers can precisely machine all of these materials, which is particularly useful as the areas of application of QR codes can be extremely diverse.

areas of application

Laser production of small QR codes can be useful in many industries. In the electronics industry, for example, they can be used to identify chips and small electronic components. Tracking and identification of medical devices such as surgical instruments and implants can also be accomplished using laser QR codes. In the fashion industry, such as jewelry and watches, codes can be used to ensure authenticity and traceability.

Laser milling in industry is a highly efficient and versatile technology that offers many advantages to the automotive, aerospace, electronics and medical industries. Thanks to its precision, speed and flexibility, it plays an increasingly important role in industrial production.

Laser milling in industry is a highly efficient and versatile technology that offers many advantages to the automotive, aerospace, electronics and medical industries. Thanks to its precision, speed and flexibility, it plays an increasingly important role in industrial production.

It provides a perfect opportunity for milling high-strength, but light materials such as titanium and aluminum alloys, because we can easily mill predefined shapes.

Thanks to its own program, our FibereSX laser equipment handles vector graphics well, so it is ideal for milling complex shapes and forms, and is capable of achieving micron-scale detail.

Stone milling with laser technology is an innovative and precise method for stone processing. Laser technology enables the creation of fine details and complex patterns that are difficult or impossible to achieve with traditional mechanical methods.

Precision and depth of detail

Lasers are extremely precise, so they can create very fine details on the stone surface, so they are especially useful for artwork, logos, inscriptions and decorative patterns.

Contactless processing

Laser milling does not require physical contact with the stone, so it minimizes the risk of damaging the material and enables the machining of fragile or thin materials.

Our team of experts is at your side from the initial steps to help you realize the project.

As a first step, we recommend a consultation, where we discuss the details of the project and, if necessary, test our technology on the product so that we can provide you with the perfect solution.

When we have found the right option for your task, our engineering colleagues will then conduct an on-site survey to determine exactly what design will be required.

Our engineers provide assistance in everything during the integration, installation and commissioning of the machine after purchase.

integration

During integration, we help you set up communication and data exchange between different systems, as well as adjust everything according to the environment.

Installation

During the installation, we set the appropriate parameters on our own Windows-compatible software, and check that everything works smoothly during continuous production.

FIRST SETUP

We configure our laser equipment and carry out full-scale testing to ensure system functionality and stability.

TRAINING

We train users to use the system and installed software. Furthermore, we provide continuous technical support to solve the problems that arise and to maintain the system.

Precision PCB cutting with laser technology is an advanced and efficient method that offers many advantages over traditional mechanical cutting techniques.

precision and contactless technology

Laser cutting is accurate, fast, and allows intricate designs to be cut out without the need for physical contact, minimizing mechanical stress and the chance of damage to PCBs.

Advantages of PCB laser cutting

High precision: Lasers allow very precise cuts with an accuracy of a few micrometers, which is especially important for densely populated PCBs.

Clean edges: Laser cutting results in clean and smooth edges, reducing the need for post-processing.

Flexibility: Laser cutters can be programmed to cut different patterns, making them easy to adapt to changing designs and prototypes.

Speed: Laser cutting is fast, which increases production efficiency and reduces lead time.

Non-contact cutting: Since there is no physical contact with the cutting tool, PCBs are not mechanically damaged and tools do not wear out.

Minimal heat effect

During laser welding, the heat effect zone (HAZ) is very small, which minimizes material deformation and possible damage. This is especially useful when working with thin materials such as body parts.

Efficiency

Laser welding is faster than many traditional welding methods, increasing production speed and reducing production time.

Accuracy and precision

Laser welding is highly accurate and precise, allowing intricate and delicate parts to be joined without distortion. This is especially important for automotive components, where millimeter precision is also important.

High quality stitching

Laser welding produces high-quality, clean and strong welds that are reliable and durable.

Reduced material consumption

Laser welding often does not require filler material, which reduces material costs and the need for post-processing.

Automable

Laser welding systems can be easily integrated into automated production lines, increasing productivity and reducing the potential for human error.

Laser cutting plexiglass, also known as acrylic, is a popular and effective method for creating precise and clean cuts in this material.

Laser cutting has many advantages over traditional mechanical cutting methods, including superior edge quality, intricate detailing, and minimal material waste.

Cutting speed:

Cutting speed must be balanced with laser power to achieve a clean cut. Speeds that are too high can cause incomplete cuts or rough edges, while speeds that are too slow can cause excessive melting or burning.

Marking

Marking plexiglass using a laser involves creating precise, permanent designs, text, or patterns on the surface of the material without cutting through it. This process is commonly used for engraving logos, serial numbers, decorative patterns, and other detailed markings.

Laser cutting of Plexiglas is an efficient and precise method that is widely used in various industries, such as labeling, model making and production of unique parts, automotive parts. Proper setup and handling of the laser cutter can result in high-quality cuts with minimal material loss and reduce the need for additional post-processing.

Precision laser welding equipment are special tools designed to perform fine and precise welding tasks. Precision laser welders are able to work with very tight tolerances, enabling the welding of small and sensitive parts. These devices introduce minimal heat into the material, which reduces the risk of deformation and damage to the material.

Precision laser welding systems can often be integrated into automated production lines, increasing productivity and reducing the potential for human error. They have advanced control systems that allow accurate process monitoring and adjustment. Precision laser welding equipment has revolutionized welding processes in many industries, providing high levels of precision, reliability and productivity.

Precise automated laser welding:

Automation: In this case, the welding process is performed by automated systems that use computer-controlled devices and robots.
Accuracy and repeatability: Automated systems provide extremely high accuracy and repeatability, as the programmed movements take place without human error.
Speed: Automation enables welding at higher speeds, increasing productivity and reducing lead times.
Application: Used in high-volume production such as automotive, electronic device manufacturing, and other industrial applications where precision and efficiency are key.
Costs: Higher initial investment costs are typical for the acquisition and installation of automated systems, but they pay for themselves in a short time due to long-term cost effectiveness and productivity.

Thanks to our unique development, lasers are already capable of performing more tasks than ever before.

Thanks to the precision, speed and versatility of modern laser technology, it offers effective solutions in many areas, be it industrial, medical or scientific applications.

Technology:

• welding
• marking
• cleaning
• cutting
• milling
• surfacetreatment