“The resin flow in CLIP is a very passive process – you’re just pulling the object up and hoping that suction can bring material to the area where it’s needed,” explains one of the study’s other co-authors, Gabriel Lipkowitz. To get around these issues, the researchers have therefore come up with a new approach, in which platform-mounted syringe pumps add resin at key points in the build. However, as the Stanford team point out, this doesn’t always happen, especially if a build rises too quickly, or the resin has a particularly high viscosity. Above this window, cross-sectional images of a 3D model are effectively projected into the material, hardening it into desired shapes, and as a solidified piece rises, liquid resin is supposed to fill in behind it, allowing for smooth, continuous curing. Instead of printing layer-by-layer, the technology allows for the balance of UV light interactions, in a way that enables objects to be continuously ‘grown’ from a resin pool, via a much faster process.Īt the heart of the CLIP approach is a ten-micron-thick dead zone in the resin pool where photopolymerization cannot occur. Image via Stanford University.Ĭo-developed by DeSimone and patented by his firm Carbon when first introduced in 2015, CLIP 3D printing is categorized as a photopolymerization method, but it works slightly differently to SLA or DLP. “It will allow us to print much faster, helping to usher in a new era of digital manufacturing, as well as to enable the fabrication of complex, multi-material objects in a single step.” A comparison of Carbon’s CLIP process and the ‘iCLIP’ alternative. “This new technology will help to fully realize the potential of 3D printing,” says one of the study’s authors and Carbon Co-Founder, Joseph DeSimone. By pumping extra material into this space, the scientists have managed to accelerate the process, and unlock unique conduit-integrated part designs. Attractive details, such as red topstitching and the characteristic perforated pattern, reference the dynamic design of the AMG seats and highlight the sporty feel.Researchers at Stanford University have announced the development of a polymerization process that’s “five to ten times faster” than the current quickest high-resolution resin 3D printers on the market.Įssentially a fresh take on the Continuous Liquid Interface Production (CLIP) method developed by Carbon, the team’s ‘iCLIP’ approach involves repurposing an oxygen-filled ‘dead zone’ at the bottom of a CLIP printer’s resin pool. Skilled artisans create the AMG collection from the finest Italian leather and lambskin. ![]() The exclusive AMG leather accessories are all handmade in Germany. ![]() ![]() – modelled on the genuine leather used for the AMG seatĭynamic design meets meticulous craftsmanship. The red contrasting stitching and stainless steel money clip in gun metal colour shade round off the stylish appearance. The stylish design is modelled on the leather used for the AMG seat and also features an embossed AMG logo on the front and an AMG lining inside. Handmade in Germany, this wallet exudes quality and is also a delight to behold. Keeps your most important cards and banknotes safe: the credit card holder with money clip in grained and perforated leather.
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