Zhang Haiou, leader of the 3D printing technology research team at the university, has been developing the method for over a decade along with his fellow researchers. Dubbed “intelligent micro casting and forging,” the technique combines aspects of traditional metal casting and forging technology along with 3D printing to create stronger, more ductile and stable parts. According to Zhang, the method eliminates common problems such as porosity, cracking, and the crumbling or dropping of fused materials due to gravity or rapid heating and cooling.
“In the past, conventional 3D printing has been fatally flawed in the following areas. First, without forging, metal parts have a serious chance of wearing. Second, the performance of 3D printed parts has not been high. A third problem is the presence of pores and unfused portions and the fourth is that using a laser or electron beam as a heat source is very costly,” he said.
According to the team, intelligent micro casting and forging uses metal wire that is 90 percent cheaper than the powders used in most metal 3D printing techniques. It’s also 80 percent more efficient than SLM printing, and can create parts up to 5.5 x 4.2 x 1.5 m, with a surface roughness of 0.02 mm.
While several hybrid technologies have been developing recently, combining 3D printers with CNC machines and other methods of production, this appears to be the first time 3D printing has been merged with forging and casting. Parts created with the intelligent micro casting and forging technology will be more reliable and longer-lasting, the team says, and they’ve already been awarded multiple patents, both in China and internationally. We’ll certainly be keeping an eye on this new technology as more information becomes available. Discuss this new technology further in the Micro Forging & Casting Sync Composite Device forum over at 3DPB.com.
[Source/Image: People’s Daily – Hubei Channel]