3DMicromac’s brand new microCETI™ uses the most innovative LIFT (Laser Induced Forward Transfer) laser process, which is an essential factor in the process chain for manufacturing microLED displays. The fully integrated laser system is characterised by its compact footprint and high variability. The microCETI™ enables the transfer of hundreds of millions of microLEDs without the use of mechanical forces, thereby ensuring that microLEDs of almost any shape and size can be transferred. This ensures cost-effective production of microLED displays. Most cost-effective production of microLED displays Unique LIFT module Highest transfer rate ten times faster than competing technologies Flexible software for integration into production lines Handling options for wafers (up to 8″) and sheets (up to Gen.2)
TEKNIK CIZGI KESIM BUKUM METAL SAN VE TIC LTD STI
Turkey
Metal sheets of various types and thicknesses are produced quickly and at low cost by making millimetric calculations on computer-controlled machines. Thanks to the pressure force that can be applied from 35 tons to 640 tons with press brake bending machines, materials up to 6000 mm in length and up to 20 mm in thickness can be processed.
Request for a quoteSTEEC
France
The nuclear sector is one which requires extreme precision as well as the ultimate discipline. This also includes machining of course. STEEC provides the players in this sector high-tech subcontracting solutions in micro-drilling or conventional micro-machining and laser micro-cutting. Major French and European companies in the nuclear sector put their trust in STEEC for the manufacture of micromechanical parts.
Request for a quoteTRIBUNAS & FIGUEIREDO, LDA
Portugal
Mig-Mag TIG Laser Welding of carbon steel, stainless steel and aluminum.
Request for a quoteKNIGHT OPTICAL (UK) LTD
United Kingdom
As well as Knight Optical’s Low GDD Ultrafast Laser Mirrors, we can also provide broadband and wide-angle alternatives to cover more of a range of applications. Our Wide-Angle Laser Mirrors optimised for the fundamental and second harmonic (SHG) emissions of Ytterbium (Yb) doped lasers including diode-pumped solid-state (DPSS) and fiber lasers, and therefore have a design wavelength of either 515nm or 1030nm. They exhibit > 99.9% reflection when used between 0 to 45°. The Broadband Laser Mirrors work from 700-900nm ideal for applications using a Ti:Sapphire laser, again demonstrating > 99.9% reflection within this wavelength range. Their key features include: •Ion beam sputtered (IBS) coating which is compact and durable. •Reflection > 99.9% within their design wavelength range. •Broadband laser mirrors work at 45° •Exhibit minimal group delay dispersion (GDD) to prevent pulse broadening •High laser induced damage threshold (LIDT) •Precision flatness and surface quality to
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