By submitting this form, you are agreeing to the Terms of Use and Privacy Policy.
Fiber laser marking is the practice of imprinting objects with the use of a fiber laser beam of light. The laser beam is created by the marking machine by extracting focused energy from light. Pump light for fiber lasers comes from so-called laser diodes. Light that is sent into the fiber-optic cable is emitted by these diodes.
The subsequent step involves creating and amplifying a certain wavelength using optical components found inside the cable. The final step is to shape and release the generated laser beam.
Materials including steel, aluminum, stainless steel, plastics, and rubber can all be marked with a laser. Alphanumeric serial numbers, VIN numbers, logos, and 2D barcodes (also known as data matrix codes or QR codes) are frequently used to identify parts and goods.
A Fiber 3D Laser Marking Machine is a sophisticated industrial tool used for permanently engraving or marking objects with high precision and detail.
It utilizes fiber laser technology to create marks on various materials, including metals, plastics, ceramics, and more. The “3D” aspect implies that it can mark surfaces with intricate three-dimensional contours, providing a versatile solution for a wide range of applications.
A 3D laser machine generally works by marking the workpiece by placing some points on the 3D model of the workpiece. Once the height specification of the design has been defined, the machine makes inclusions with high power (dark colouring) and low power (low colouring) up until the marking procedure is complete.
The total power consumption is less than 500W, which is 1/10 the power of a lamp-pumped solid-state laser marking machine and results in significant energy cost savings.
Herolaser’s 3D Fiber laser marking system the greatest electrical/optical conversion rate reaches up to 30%. A laser diode is used as the pump source in a fiber laser marking machine, and the typical service life is up to 100,000 hours.
In order to fulfil the demands of high-speed packing operations, the Videojet 7610 20-Watt fiber laser can mark more high legibility codes up to 122% faster than the preceding Videojet 7310 laser.
Their new 7610 features faster speeds on a variety of substrates, enabling producers to mark more products with the same excellent print quality. The new high-speed fiber laser can assist users in saving money over conventional, more expensive advertising by reducing time, materials, and people.
The Triumph laser 3D laser marking machine has successfully filled the gap left by the lack of laser surface processing and opened up a wider area for contemporary laser applications, despite the fact that the fibre laser marking machine is still in widespread use in many industries.
There are many goods with irregular shapes in the present production process, many of which may still have abnormalities on the surface, in order to fulfil specific needs.
The Global Fiber 3D Laser Marking Machine market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
The flexible Vereo LFSS 3D Integration Fibre Laser is a large field 3D fibre laser system that is perfect for integrating into production cells or automated workstations. It may also be operated manually on a benchtop using a tool post.
A continuous marking field of 15″ x 15″ (381mm x 381mm) is provided by Vereo LFSS 3D while still maintaining a small beam diameter and high energy output. Without any tiling or stitching, expansive images can be processed in a single cycle, and big trays or fixtures of components can be marked with a short cycle time.
A marking field of 9.84″ x 9.84″ (250mm x 250mm) is provided by 3D mode, along with a large continuous marking field, 3D laser contour marking, and 3D laser engraving.
When marking changing height components, there is no longer a requirement for mechanical focal height adjustment thanks to the industry-leading 3.93″ (100mm) of Z-axis dynamic focus. Numerous marking applications can be solved using a 100-watt, maintenance-free MOPA fibre laser source.
A straightforward USB interface connected to a laptop or desktop PC is used to manage programming and communication. Vereo LFSS 3D is a potent tool for any automated laser marking procedure thanks to additional capabilities like external axis control and dedicated I/O.
