Multi Jet Fusion: A New Revolutionary Printing Technology |
Posted: August 20, 2019 |
Multi Jet Fusion is a newcomer in the family of 3D printing technology. Due to some unique properties in the method of its printing, it has successfully hit the market. Two properties it boasts at are possibilities for printing complex objects and lower costs. Multijet 3D printing offers a variety of applications from production for single parts to the manufacturing of multiple part numbers in a faster and cost-effective way. UsagesBasically, for hidden applications like brackets, guides, thin-wall ductwork, connectors, etc. we use multi-jet fusion 3d printing. World of transportation benefits from this technology in terms of manufacturing spare parts, pre-production, and limited run. It does through allowing higher volumes possible in its technology. Lower CostsMJF 3D printing reduces the price of printing when compared to CNC machining or Laser based Sintering. It does so by developing in batches and adding improved practical design at the same time. The average cycle-time which it reduces by making a web of parts in a single batch lets it reducing the cost also. In terms of strength and accuracy, it is always preferable to laser sintering. WorkingIt all starts in the working area, where we apply the layer of material. Simultaneously, the machine prints fusing in one continuous pass and also give details to the agents about the whole working area. The process gets over when the pass combines the printing with the fusing energy. Accuracy and exactness are two things which are highly taken care of to ensure the expected output. MaterialsSince it's a new technology, Nylon 12 (PA 12) is the only material offered until now. It is a tough thermoplastic material on which we do high-volume functional prototyping and low-volume productions as well. A standard dyed black color is generally used. Research for unlocking new multi jet fusion materials for our customers is already going on. Multi jet fusion, thus, builds nylon prototypes and end-use production parts in a cost-effective and rapid manner. Mechanical resources of its final parts make this technology better than other methods like laser sintering. Some of its properties are superiority surface finish, correctness in dimensions, good feature resolution, etc.
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