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PrintValley is the First High

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   DSC0000.jpg 3D printing’s ability to manufacture individual and low production runs of customized products is one of the reasons that the process has been quickly adapted for a large number of industries and applications. While mass production is still considerably cheaper, the primary reason for that is the high rate at which large numbers of products are able to be manufactured. In the time that it takes a customized 3D printed part to be manufactured, hundreds if not thousands of parts can be made using traditional manufacturing technologies. Even for small parts like dental or medical implants, the printing process can take hours, and then each part needs to be individually finished to remove excess material and smooth or polish the surface.
DSC0001.png   The PrintValley demonstration unit.
  The need for post processing can add several hours on to the production time, making it more time consuming and expensive to produce individual or small run parts. While 3D printing technology is improving, leading to faster printing speeds and final part accuracy, the production of metal parts is still very labor intensive. Metal parts often need to have their surface ground down with an entirely different machine like a polishing wheel or a CNC milling machine. There are many instances where it is more productive and cost-effective to use additive manufacturing technology, but in most instances traditional manufacturing processes are still preferable. However, a coalition of technology firms that were tasked by the European Union to develop a high-performance production line with integrated 3D printing and finishing technologies may be on the cusp of changing that dynamic.
  A European additive manufacturing initiative called Hyproline has demonstrated their new additive manufacturing system, which has been optimized for the high-speed production of small metal parts. The system can 3D print short-run or individually customized metal parts from stainless steel 316L, titanium, or copper materials, verify that the print was successful, remove any excess materials and then automatically remove the finished part from the production line. The group of businesses were brought together to work on the Hyproline Project thanks to a three-year grant from the EU’s Seventh Framework Programme for Research and Technological Development (FP7), a program launched in 2007 to encourage the development of the Factories of the Future.
DSC0002.png   PrintValley
  “The purpose of Hyproline, was to build a demonstration of a high-performance production line to improve the 3D printing of small parts, coupled with a high-speed finishing line using laser polishing,” explained Mark Gammon, the technical director at International TechneGroup (ITI), one of the companies that is part of the Hyproline coalition.
DSC0003.png   Each platform can be individually raised and lowered.
  The Hyproline coalition was led by the Dutch non-profit organization Netherlands Organisation for Applied Scientific Research (TNO), which worked closely with International TechneGroup (ITI), a software development company. ITI primarily focused on the product-data integration and interoperability systems used for Hyproline’s high-speed manufacturing platform. They were joined in the coalition by metal additive manufacturing materials company Hgans Digital Metal, research and development institute Swerea IVF, manufacturing and mechatronics technology organizationCCM and the University of Birmingham. The coalition worked together from 2012 to 2015 to develop a working prototype of a high-speed production line that combines metal-powder-bed 3D printing, laser-based surface and structuring and advanced systems for process monitoring and metrology.
DSC0004.png   3D laser scanners verify the finished part.
  The result of the Hyproline project is PrintValley, a circular conveyor system that includes 100 individual build platforms that can each be independently raised, lowered or removed. Each platform can be used to manufacture individual, custom metal parts or small run metal parts at the same time. The platforms travel around the conveyor carousel-style, where parts can be 3D printed, 3D scanned to test for defects or mis-prints, laser-machined to remove excess printing material or surface flaws, and then removed with an integrated pick and place robot. PrintValley can accommodate multiple custom modules other than those included in the Hyproline demonstration unit. That means that virtually any type of manufacturing or assembly system can be included, including CNC milling tools, inkjet 3D printing systems or tools for painting or coating finished parts.
  The high-performance PrintValley system>
DSC0005.png   A pick and place arm removes each individual build platforms.
  Here is a video from TNO demonstrating and explaining how PrintValley works:

  The EU funding granted to the Hyproline coalition was included in the broad objective of developing a process that would allow 3D printing technology to be used for high-speed manufacturing. The goal was to make an automated AM process capable of producing small runs of metal parts that reduced the time-to-market, increased accuracy, lowered waste material and the number of rejected parts. These are considered key objectives for small and mid-sized European companies that manufacture small metal parts for electronic, dental, medical and jewelry applications. PrintValley reduced the time it takes to produce small metal parts from a day to a matter of minutes. You can learn more about the Hyproline project and PrintValley here.
  

来源:南极熊3D打印网转https://3dprint.com/141576/printvalley-mass-production/
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