mep wrote:I must admit I am not impressed by the comments here so maybe I can add my view on the issue:
1. Tolerance and fit
First of all go and check what bearing manufacturers suggest as fitting and tolerance. Even though that would be the first thing to do and it was the first suggestion made here you still have not done that!
Why you keep discussing here without any own research?
Just for the sake of it I quickly did it myself:
Selected a bearing; figure the outer tolerance of the bearing; check what tolerance the manufacturer suggests; calculate interferences and play; -> be able to choose a tolerance.
This took just a few minutes on the internet. First I wondered why nobody just told you a possible tolerance but I guess they just don’t want to do the homework for you – so I will not do either.
2. Casting vs. machining
You want to cast an aluminium upright in the scale of 1:4 but you are unable to do any machining?
An upright in this scale is about the size of a watch, most of the surfaces do need machining. To cast such a part just does not give you any benefit. The casting process alone opens up so many questions. Are you sure the casting will be of good quality, with no cavities included, good surface finish, correct material properties, no internal stress, no deformation?
And who manufactures the moulding tools? Doing the tools will be a bigger job than milling a little upright. I want to see the place who offers you an aluminium cast for less than the machining costs and I want to see similar parts they have done before.
3. Gluing of bearings
It is not necessary to glue the bearings in. The key is that the design is a complete assembly which makes it impossible that any part can fall apart even if the fitting is too lose. Again, look up how a bearing assembly is done correctly. After you have done step one (looking up the fitting) you will understand that with the given tolerance of the bearing ring it is likely that the outer ring has a little play. Nevertheless, don’t come up with the idea that you can get away with a roughly machined oversized hole by filling the gap with glue. That’s no proper engineering. Also if everything is done correctly you should not need to prevent the bearing ring from spinning in the housing otherwise you could have designed a plain bearing from beginning on.
4. FEA!
Why you do simulations when you are not able to calculate a fitting and tolerance yourself?
All you need can be calculated by hand. Seriously, it pisses me of when people talk about simulations but don’t have the slightest glue. Learn your basics first!
You can also calculate the increase of size with temperature Greg Locock mentioned just by hand.
Also if heat shrinking the bearing in will work.
BTW. : Something with your professor must be wrong as well.
thank you mep for your reply
i am going to start by telling you that i live in a country where we do not have automotive engineering first, then you can't find anyone here that has a proper automotive experience in term of engineering so about my professor that will give you the answer, nothing is wrong with him, it's not his field yet he was able to give me guidance, but i am not all the time with him, i work alone at home + in my university we do not have labs or else, so i will be the first to hit in a project like mine + the manufacturing process on my own in the history of it !
about the bearing, i looked over the internet but couldn't find any manual about it, it's a bearing i got from the yankee-legend website, when i got it back last year i had no idea whatsoever about what i was doing,
about calculation now i am reading in the shigley book about bearing to be able to make calculations and understand more about this subject
about the mold for casting i had to do it myself a plexi core + hand made cardboard arms here are pictures of the uprights but these pics were taken before i put the paste filler to have a better surface
http://i96.photobucket.com/albums/l196/ ... foobof.jpg
http://s96.photobucket.com/user/mac_987 ... 9.jpg.html
http://i96.photobucket.com/albums/l196/ ... idnqzy.jpg
i decided to make the molds myself because using a CNC machine or else or machining from 0 would cost big fortune, so i asked one of the professors who has a workshop for machining and he told me you will be able to make casting but after that you have to make machining of the bore for the bearing and for the surface on which the caliper will be assembled
