So, while sitting in a meeting this morning not paying attention to the meeting at all, I realized that in my office office,I have two basic tools for measuring flex at a rate ............... so I then "borrowed" them and headed home. I now have a force gauge and a dial indicator, neither very nice nor fancy, but enough to conduct base experiments.
So, I want to compare "flex" of various chassis. For this experiment, I want to measure the amount of force required to produce various amounts of movement within different chassis. I want to ultimately compare flex while holding the rear transmission area stationary, and creating various lifting forces at the front body mount hole, and measure movement at the front lip, or location TBD.
I am considering the back portion of the chassis, from behind the bulkhead, to be rigid. But I am looking at the two major differences in chassis to be separate here.
Aluminum tubs depend on the rear bulkhead and transmission for rigidity. The same can be said for the nose plates and nose tubes in the front. The aluminum tub creates it's toughness by effectively transferring forces directly from the nose plate back to the transmission case, and ultimately to the rear of the chassis. So, for any tests on aluminum tub chassis, the nose plate, nose tubes, bulkhead, trans (6 gear case at least), and trans brace will be installed to make sure the original intent is there. The plan is to literally place a clamp on top of the trans brace to hold it solid to the table, and apply upward force at the front.
The flat graphite chassis don't/can't do this. They have to rely on the rigidity of the chassis material itself, as it can't transfer force to anything else. Therefore, for my experiments, I won't have all of these components installed on the flat/graphite chassis. To keep it somewhat controlled, I will screw in the same bulkhead/brace/trans (maybe case) that I install on the aluminum chassis for testing, but obviously nothing for the front. In theory, I don't think these components do anything, and I could just clamp the chassis to the table at the location of the trans for the same results, but to try to keep it more fair, I will go the extra step. The plan is to literally place a clamp on top of the trans brace to hold it solid to the table, and apply upward force at the front.
Most of the chassis tested will be blank / empty except for the required components, but a couple will be built. Sorry, too lazy to take things apart to make everything equal.
I don't think the accessories will have an impact. I have A B C aluminum tubs just for fun, but I would imagine any real differences in them would be because of use, and not because of original traits.Oh, and I understand that I am conducting a pretty worthless test, and it means nothing in real world. I am not trying to prove anything here! Just pulling on chassis and recording numbers. Take that for what it is worth.
The contestants so far:
EDIT: added a ReRe and a ReRe stripped to the mix
