Fibeer SX is a modular machine manufacturer and its main goal is to serve the customers needs completely and individually. We provide our partners with comprehensive support that is unique on the market. Fibeer SX Group also stands out from the market with its after sales services. With the integration and commissioning processes of the machines, we simultaneously prepare future users for independent use in production. Fibeer SX Group also stands out from the market with its after sales services. With the integration and commissioning processes of the machines, we simultaneously prepare future users for independent use in production. Within support, we pay a lot of attention to the maintenance of our machines at appropriate intervals depending on the working conditions.We provide a replacement machine so that production can continue without interruption. FIbeer SX Group offers a full 4-year warranty, reflecting the reliability of our equipment.


Fibeer SX

Laser cleaning in Automotive

Laser cleaning is an efficient and environmentally friendly solution used in the automotive industry for the surface treatment and cleaning of vehicle components. Laser technology allows the removal of paint layers, rust, oil stains, dirt and other deposits without damaging or scratching the base material.
With laser cleaning, there is no need for chemicals or other environmental pollutants when removing dirt.
Thanks to the precision of the laser, we can minimize the risk of damage to the parts.
From a hygienic point of view, the laser creates a clean environment, which is an important factor in the production of car parts or during vehicle production.
Suitable for cleaning various materials and surfaces, including metal, plastic, glass and other materials.
In the automotive industry, laser cleaning is used in a wide variety of applications, such as cleaning engine parts, brake systems, transmissions and other components, as well as refinishing or refinishing car bodies. This technology can contribute to improving the efficiency and quality of production processes in the automotive industry.

1 year ago | [YT] | 0

Fibeer SX

Laser automation đŸŠŸ

💯In industrial processes, automation plays an increasingly important role in increasing efficiency and productivity. The possibilities of automation offered by laser technologies are revolutionizing production processes.
Automated laser systems simplify and optimize processes, minimizing the need for human intervention.
This reduces human errors and increases process reliability. In industrial automation, laser technologies offer manufacturers flexibility and versatility.

✅In industry, the automation of laser technologies opens up new opportunities in many industries. From the automotive industry to electronics manufacturing, from healthcare to aircraft manufacturing.
✅These automated systems make it possible to increase productivity without human intervention. In this way, we can reach the desired number of pieces much faster and this way, excluding unnecessary downtime.
✅For workstations with closed sensors, we get a system that complies with all safety regulations. The biggest advantage of laser automation is that it can be operated and controlled remotely, can be controlled with compatible CAD files or with a robot hand and robot, and the movement can be expanded with an X,Y table.
✅The least common application of automation is milling. The milling process, which can be integrated into automatic production lines, enables application in a wide range of machining processes for many materials, including silicon, ceramics, metals and polymers. The biggest advantage of the process is that it can be controlled remotely.
Our automated laser machines provide an ideal solution for high-volume production lines. The design our machines according to the customer’s needs, so you always get the desired result.Can be calibrated for larger workpieces

2 years ago | [YT] | 0

Fibeer SX

LĂĄttad mĂĄr legĂșjabb videĂłnkat ?

2 years ago | [YT] | 0

Fibeer SX

đŸ”ŽđŸŸąđŸ””đŸŸĄâšȘ
A lĂ©zerrel törtĂ©nƑ szĂ­nes jelölĂ©s sokoldalĂș Ă©s hatĂ©kony megoldĂĄst biztosĂ­t, tartĂłs Ă©s kivĂĄlĂł minƑsĂ©gƱ jelölĂ©sek lĂ©trehozĂĄsĂĄra a savĂĄllĂł, rozsdamentes acĂ©l elemek szĂ©les körĂ©ben.



1ïžâƒŁ A szĂ­nvĂĄltozĂĄs a fĂ©m felĂŒleti molekulĂĄinak oxidĂĄciĂłja Ă©s ĂĄtrendezƑdĂ©se miatt következik be. A lĂ©zer energiĂĄja megvĂĄltoztatja a felĂŒleti oxidrĂ©teget, kĂŒlönbözƑ vastagsĂĄgokat Ă©s szerkezetet hozva lĂ©tre, amelyek kölcsönhatĂĄsba lĂ©pnek a fĂ©nnyel a kĂ­vĂĄnt szĂ­nek elƑállĂ­tĂĄsa Ă©rdekĂ©ben.


2ïžâƒŁ Amikor a lĂ©zer kölcsönhatĂĄsba lĂ©p a savĂĄllĂł acĂ©llal, intenzĂ­v hƑt termel egy meghatĂĄrozott terĂŒleten. A leadott hƑ befolyĂĄsolja a savĂĄllĂł acĂ©l felĂŒleti tulajdonsĂĄgait ezĂĄltal megvĂĄltoztatja a szĂ­nĂ©t.


3ïžâƒŁ Az elĂ©rni kĂ­vĂĄnt szĂ­n szĂĄmos tĂ©nyezƑtƑl fĂŒgg, többek között az anyag összetĂ©telĂ©tƑl, a felĂŒleti viszonyoktĂłl Ă©s a beĂĄllĂ­tott paramĂ©terektƑl. A szĂ­nek terjedhetnek egĂ©szen a vilĂĄgos barnĂĄtĂłl elkezdve kĂ©kes Ă©s zöldes ĂĄrnyalatokig.


4ïžâƒŁ A lĂ©zeres sorĂĄn a következƑ paramĂ©tereket kell figyelni: teljesĂ­tmĂ©nysƱrƱsĂ©g, az impulzus idƑtartama Ă©s az ismĂ©tlĂ©si sebessĂ©g. Ezen paramĂ©terek beĂĄllĂ­tĂĄsĂĄval a precĂ­zen szabĂĄlyozhatĂł energia lehetƑvĂ© teszi az acĂ©l felĂŒletĂ©n kĂŒlönbözƑ szĂ­nek jelölĂ©sĂ©t.

#laser #lasertechnology #lasermachine #lasermarking #lasermarkingmachine #laserengraving #industrialengineering #industrialautomation #manufacturingindustry #manufacturingtechnology #uniquedesigns #multifunctional #productionprocess #engineering #engineeringinnovation #fibeersx

2 years ago | [YT] | 0