With laser pulses of a few pico- and femtoseconds, materials can be efficiently processed, practically without thermal or mechanical influences. To do this, the laser pulse – and therefore the duration of the energy input – must be short enough in order to avoid temperature compensation between electrons and their associated atoms. The material evaporates abruptly. The heat does not get into the surrounding material, and thermal stress fractures are avoided. This is referred to as "cold processing". For metals and many other materials, the ideal pulse duration for this is between 1 and 10 picoseconds.
All-around solution for markings with ultrashort pulses.
Are you looking for a marking unit for laser markings with ultrashort pulses? Then the TruMicro Mark 2000 is the ideal choice. The first all-around, turnkey solution for ultrashort pulse laser in a marking station includes a scanner, laser cooler and software, in addition to the laser. With peak pulse powers of 0.5 MW, it is productive even with moderate average powers in cold material processing. The system offers the benefits of maximum process stability and monitored pulse energy for each individual pulse. The multi-pulse technology enables the individual adaptation of pulse number and distance in freely configurable pulse trains. This means that you can also use the TruMicro Mark 2000 for other applications in cold processing.
High beam quality for absolute precision
The ultrafast power modulator keeps power and pulse energy at an exact level.
With ultrashort pulses, you can mark even highly reflective surfaces.
With the TruMicro Mark 2000, you can mark implants and surgical instruments in a corrosion-resistant way.
Create deep black, corrosion-resistant markings with extreme peak pulse power.
Mark chromed plastics without modifying the polymer layer.
100% of the average power even in individual pulses, thanks to monitored fibre technology
A change in colour, up to and including deep black, can be brought about in metals through laser processing, which is known as black marking. Ultrashort laser pulses hardly create any heat in the material during processing. The amount of free chromium in the stainless steel thereby remains high enough for a self-healing layer of chromium oxide to form on the surface – the marking on stainless steel thereby becomes corrosion-resistant. Black marking is therefore especially well-suited for creating the mandatory markings in medical technology.
Laser marking in medical technology
Traceability is extremely important in the manufacture of products in medical technology, which is why machine-readable markings are very important. With the TruMicro Mark 2000, the type and form of the marking is not subject to any limits here: UDI-compliant product markings in clear text and barcode or data matrix code for product traceability, micro-marking in the range of hundredths of millimetres or graphics of the highest quality.
TruMicro Mark 2020
TruMicro Mark 2030
|Beam quality (M²)||< 1.3||< 1.3|
|Wavelength||1030 nm||1030 nm|
|Average output power||10 W||20 W|
< 900 fs
< 400 fs
< 900 fs
< 400 fs
|Max. pulse energy||10 µJ Optionally: 20 µJ and 50 µJ||20 µJ Optionally: 50 µJ|
|Max. repetition rate||1000 kHz Optionally: 2000 kHz, 200 kHz for 50 µJ pulse energy (10 W)||1000 kHz Optionally: 2000 kHz, 400 kHz for 50 µJ pulse energy (20 W)|
|Dimensions of laser head with scanner (W x H x D)||838.5 mm x 375 mm x 180 mm||838.5 mm x 375 mm x 180 mm|
|Dimensions of supply cabinet (W x H x D)||600 mm x 1225 mm x 825 mm||600 mm x 1225 mm x 825 mm|
|Dimensions of work station (W x H x D)||860 mm x 2000 mm x 1312 mm||860 mm x 2000 mm x 1312 mm|
The TruTops Mark marking software makes marking with the TruMicro Mark as easy as possible. The TruTops Mark program combines the marking software, CAD editor, management of laser parameters and interfaces, sequence programming with QuickFlow and a diagnostics tool. An intuitive interface puts all the functions at your fingertips. You can easily draw and arrange graphic objects with the CAD editor. The database for laser parameters enables you to re-use optimised parameters many times over. You can use the QuickFlow sequence programming to create "pick-and-drop" programs that control the complete marking cycle from beginning to end. The diagnostics tool visualises and analyses the analogue measured values recorded by its sensors.
With useful added options you can work even more efficiently and with more process reliability with your TruMicro Mark.
Interfaces are key for the integration of a TruMicro laser in your machine or production line. The solid-state lasers from TRUMPF offer interfaces to all common fieldbus systems. Also available: real-time interface, parallel digital I/O, interface for process sensor systems, OPC UA software interface, analogue input board, interface for intelligent TRUMPF optics (CFO, PFO).
In the event of a fault, TRUMPF service experts will remotely access your laser via a secure remote connection. In many cases the fault can be remedied directly in this way, or the configuration of the laser can be modified in a way that permits you to continue manufacturing until the spare part arrives.
This product range and information may vary depending on the country. Subject to changes to technology, equipment, price and range of accessories. Please get in touch with your local contact person to find out whether the product is available in your country.