Custom-made component with assistance from the igus 3D printing service

Profile

  • What was needed: plastic pinion for engine tuning
  • Manufacturing process: igus 3D printing service
  • Requirements: short delivery time, robustness, wear resistance
  • Material: iglidur i6
  • Industry: automotive
  • Success from the collaboration: faster special part printing (less than 72 hours) for a small number of pieces, little design effort, component turning and machining no longer necessary. The component is also reliable thanks to its robustness


Inspired by Formula 1, the "Formula Student Germany" design competition pits student teams against each other in open-wheel car races. One of the parts the Formula Student team from Weingarten, near Ravensburg, Germany, needed to construct its race cars was customised plastic pinions for use as chain tensioners in the chain drive. Unfortunately, special-size pinions have long delivery times, and classic production with milling is time-consuming. The igus 3D printing service quickly assisted, producing the plastic pinions in less than 72 hours.  


Fast delivery thanks to online configurator and laser sintering procedure

Designers not only save time, because the online configurator makes it easy to construct a digital 3D model. Special parts are manufactured using the so-called SLS process (selective laser sintering). A coater spreads an extremely thin layer of plastic powder on a building platform. The printer then uses a laser to fuse the powder wherever the component is to be produced according to the 3D model. The platform is then lowered by the thickness of a layer and the process starts again. After a few hours the sprocket is fully printed. Thanks to the 3D printing, the usual turning and machining with the corresponding drawing department are eliminated," explains Richy Göser of the Weingarten Formula Student Team. 

"Probably the production with the 3D printer is also more economical in small quantities." 

3D printed: Custom made plastic pinions made of wear-resistant iglidur® material

Robust components made of tribopolymers

Used as a chain tensioner in the motor's chain drive, the pinion must be very robust. Here, too, the iglidur tribo-polymers demonstrate their superiority to ordinary polymers. igus developed the high-performance plastics specifically for dynamic industrial applications. In this case, iglidur i6, which is more resistant to wear than common plastics for laser sintering printing, was used. The material's wear resistance was tested in the in-house test laboratory.The experts tested a worm wheel at 5Nm and 12rpm. The gear made of Polyamide 12, a classic material for laser sintering printing, failed after just 521 cycles due to its high coefficient of friction.iglidur i6, on the other hand, exhibited only minor wear after one million cycles and was fully functional. "Such tests show us that we can count on the material," says Göser. "The previously used ball bearings in the chain drive hardly lasted 20 kilometres, which is not great because our longest race is 22 kilometres. We expect much more robustness from the 3D printed igus pinions in the 2019 season." 
Buy laser sintering material iglidur® I6 online
Formula Student racing cars with customised plastic pinions made of iglidur® high-performance polymers

Further application reports