Although most of my novice experiments in 3D-printing have been just that, experiments intended to familiarize myself with the technology and its benefits and limitations, I have already had the opportunity to design and print something actually useful. Like most refrigerators, mine has storage areas on the door where items are secured by a removable or adjustable rail, keeping the mustard from flying when you yank the door open. These rails are hollow aluminum sections that accept plastic friction-fitted end caps, which in turn have hooks that engage slots on the door. One of the hooks broke off and naturally fell inside the door, so fixing it with glue was out of the question.

Original right-hand end cap with missing hook, next to intact left-hand end cap

I've been playing with a 3d printer lately, specifically a Solidoodle machine that deposits ABS plastic filament. As part of a larger project I've been designing various mechanical parts, challenging myself to do without support structures and keeping manual finishing steps to a minimum. One of the things I've tried to make is an entirely printed, functional screw thread, for both male and female parts. The result is the nut and bolt combination documented here.

As for the larger project, I'll publish more about that here soon, so keep visiting!

Datasheets for electronic components frequently present maximum ratings and other such specifications in the form of lists where a label, “Operating Temperature Range” for example, is separated from a value, say “-55 to 125 C”, by a dot leader, or row of dots intended to make it obvious which value belongs to which label. Maxim Integrated does this (page two), as does Microchip (page three), among many others. Here's a way to implement it in LaTeX.