References:
- file:///C:/Users/ssuma/Downloads/hr1_de_en.pdf
- https://koyo.jtekt.co.jp/en/support/bearing-knowledge/5-4000.html
- https://youtube.com/playlist?list=PL4Q6dev1m6dse8oXhwJWGor2rH_TUkO5o&si=rObeC4lpW3e1rEvT
- F. Al-Bender, W. Symens, Characterization of frictional hysteresis in ball-bearing guideways, Wear, Volume 258, Issues 11–12, 2005, Pages 1630-1642 (https://www.sciencedirect.com/science/article/pii/S0043164804004314)
general questions I have to outline research:
- why are tapered roller bearings and angular contact bearings really common for fsae unsprung systems? is this something that could be transferrable to solar cars?
- is it important for us to be able to withstand thrust and radial loads at the same time?
- how does this change bearing calculations?
- step down? (ie. having a larger outer-board bearing but a smaller inner-board bearing) This could save space and save weight, but how does this affect loads?
- having one bearing?
- designing fixtures/figuring out tolerances for specific bearings? how should bearings be retained?
- how important is surface contact consideration/materials?
- bearings prevent metal/metal contact, reducing friction, heat, and wear.
- What is the best wag to reduce rolling resistance?
- what is bearing hysteresis?
- philip explanation: hysteresis is the reason a bearing doesn't spin foreve, internal forces within bearing that are non-linear
- what is bearing hysteresis?
- calculating dynamic loads?
notes on bearing life calculations: