This simple piece of software has been an endless source of entertainment for the past couple of weeks for the structural engineering lectuers and they've been busy creating models of shaker tables, backfilled arches with granular fill, disproportionate collapse simulations, and all sorts of other random stuff that simply looks cool when brought to life with real time physics.
I've to deliver a technical lecture in a few weeks for the Institution of Structural Engineers, but one of the things that I was struggling with was describing how some deployable structures and other lightweight structures can be susceptible to the effects of disproportionate collapse when the removal of a critical member occurs. I knew I wanted to do something along the lines of an animation to show this, but wasn't sure what was the best way to go about it... until I discovered Physion.
I know the animation above is not the most exciting in the world, but it shows what happens when a critical member, either the restraint cable at the end of the pantograph beam, or any internal element is removed from the structure. The removal of just a single element brings about the complete collapse of the structure, this effect is known as disproportionate collapse and is an important concept for structural engineers to understand. All buildings in the UK are designed to resist this effect to increase the safety of buildings in the event of accidental damage occurring.
The circular elements introduced at the beginning of the video are just there to create some weight on the structure to show that it's stable and can support a sensible amount of load when the structure is undamaged. Then using the delete tool, I've tried to show a couple of different failure mechanisms, there's no sound on the animation as I intend to talk about this during the technical lecture I'm delivering. We've already done some work on creating structurally stable pantographic beams with our MSc students here at the University, complete with additional safety mechanisms to prevent the failures above happening and it's a research topic that is ongoing in our team. The original motivation was to see if we could use it to create a deployable bridge, perhaps in scenarios that have happened recently in Cumbria when the bridges were swept away by flood water... and it's a concept that's expanding.
At times I find life as an academic frustrating compared to being in industry, then I remember that they pay me to play with things like this for a living and I feel lucky...