We’ve all seen the 3D printed nut and bolt file that 3D printer manufacturers like to show off as an example of their printers’ resolution capabilities. It is a sufficiently impressive way to showcase the level of detail a potential user can expect with a new machine. But unfortunately the 3D printed nuts and bolts aren’t going to be especially useful. The main reason is that 3D printers still aren’t capable of printing at a scale small enough for a nut to be tightened enough to work properly. Unless you glue them together the threads are simply not going to be strong enough to hold in place.
Once Bletsch had the idea, he decided to 3D model all of the common nut and washer sizes and shapes and uploaded them to Thingiverse. He started by looking up all of the common sizes that his local hardware store kept in stock. After he had all of the sizing collated, he used OpenSCAD to model each nut. Rather than using a mouse to draw your designs, OpenSCAD allows you to simply enter individual object geometries as code. He entered a script for the standard metric and SAE nuts and washers into a table in OpenSCAD, which saved him quite a bit of time, and allowed him to set up a customizer to integrate with Thingiverse. He managed to upload all of his designs, but unfortunately the customizer wasn’t meant to be.
“The root problem is actually not on my side. My script compiles easily and quickly on my system, but for some reason the Thingiverse automated system chokes on it. Their logging system literally says nothing — it’s blank, and the ticket I filed to ask about it went unanswered. That’s why I just scripted the creation of all standard sizes locally and uploaded them. It was a straightforward ‘for each size, for each part, render it’ loop, which I was able to parallelize, so my system kicked it out in about 20 minutes,” Bletsch told us via email.
“It’s metal threads going into plastic, so I’d say it holds up about as well as any small gadget you have that uses screws to fasten a plastic case…things like multimeters, small cheap video games, cordless phones…that kind of thing. For anything like hobby robotics, attaching electronics to a chassis, homespun 3D printer designs, non-load-bearing attachments, and covering protruding bolt shafts with cap nuts, I think they’re just fine,” Bletsch explained.
As a professor at North Carolina State University, Bletsch is on the front lines of helping the first generation to be trained using 3D printing in school. He also has mentored a local high school robotics team called the TerrorBytes and helped his students lobby the school for their first 3D printer. In fact he credits his involvement with the TerrorBytes as being what got him interested in 3D printing in the first place.
Do you think 3D printed nuts are a good idea, or is it nuts? Let us know on our 3D Printable Nuts and Washers forum thread at 3DPB.com.