With the help of the 3D-MID process, plastic parts can be metallized not only over the entire surface, but also selectively. To do this, the plastic part is activated with a special laser at the points that are to be coated (this is referred to as laser activation or laser direct structuring). The additives contained in the plastic directly under the plastic surface are “exposed” by the laser treatment. In a chemical bath, copper particles can then be deposited specifically only on the activated surfaces. Other metals, e.g. nickel, tin or gold, can then be deposited onto the starting layer of copper. In this way, a selectively coated plastic part is obtained. MID technology thereby makes it possible to selectively coat two-dimensional and also three-dimensional plastic parts and use them, for example, as circuit carriers for electronic or mechatronic assemblies. With the LPKF-LDS process
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Baking varnish is a special joining technology for sheet metal packages. After the individual lamellas have been cut, electrical steel with a baking varnish coating is baked into a sheet metal package in a two-stage temperature step. The result is a full-surface, solid connection between the individual sheets with complete insulation. Sheet metal packages manufactured in this way have high precision and perfect magnetic properties. Advantages of the Backlack process: The Backlack process offers several advantages over alternative packaging processes, which we will discuss in detail below. Precision – Sheets coated with baking varnish are baked over the entire surface. This means that even delicate slats can be assembled precisely.
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Select the material, the quantity and the sheet thickness. If you already have a technical drawing, you can upload it to our server. Wwe only need your contact details to send you an individual offer for laser cutting contract manufacturing! If you need several lamellas, you can simply send off the order form several times.
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We are specialized in performing thermal shock testing of electronic and mechanical assemblies and have a lot of experience with the requirements of the automotive industry and medical technology. On behalf of our customers, we perform environmental and climatic tests according to customer specifications and applicable standards, thus uncovering optimization potential. We will be happy to advise you with regard to your testing tasks and, together with you, transfer the entire testing process into a specification sheet. OUR OPPORTUNITIES 2-chamber system air-air Test chamber volume up to 130 liters Temperature range hot chamber 50°C to 200°C Temperature range cold chamber -80°C to -100°C Change between chambers <15 seconds Maximum test material weight 25 kg State monitoring of the test specimens during the test
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In an environmental simulation, assemblies are subjected to defined environmental conditions to validate their behavior under those conditions. The variables of an environmental simulation test include climatic aspects such as temperature (cold, heat), the air conditions (humidity, wetness), mechanical influences such as dust, vibration, vibration or impacts, and corrosive environmental effects such as salty lift (salt fog). As an environmental simulation laboratory, we simulate these environmental conditions in our climatic chambers and climatic chambers, creating real conditions to investigate the long-term behavior of the test specimens in reality. Environmental simulation and thermal shock testing laboratory for electronic assemblies and printed circuit boards We specialize in performing environmental simulation and temperature shock testing of electronic and mechanical assemblies. With over ten years of experience with the requirements of the automotive industry and medical
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