Author Topic: Can somebody explain this? Drilling a rotor increases it's surface area. (Read 5816 times)

gnarlycharlie4u · « **Reply #25 on:** March 08, 2011, 12:02:14 PM »

I'm surprised noone mentioned this but when you drill a rotor, yes it does cool faster but it heats up a lot faster too

Syscrush · « **Reply #26 on:** March 10, 2011, 12:13:29 PM »

Quote from: Markcb750 on December 27, 2010, 03:02:41 AM

(Pi x D) x L x N

Pi =3.14159....
D=drill dia
L= thickness of rotor
N= number of holes

Opps, what can say I'm old.

That gives the gain due to the sides of the drilled hole, but it doesn't account for the loss in swept area on the faces of the disc. So the correct formula for the net increase would be:
((Pi x D x L) - (2Pi x (D/2)^2)) x N

Consider the case where D = 2L (hole twice the size of the rotor thickness):

(Pi x 2L x L - 2Pi x (2L/2) ^ 2) x N
= (2Pi x L^2 - 2Pi * L^2) x N
= 0

So, if the diameter of the hole is less than TWICE the rotor thickness, then you'll have a net gain. If it's more, you'll have a net loss.

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Author Topic: Can somebody explain this? Drilling a rotor increases it's surface area. (Read 5816 times)

gnarlycharlie4u

Re: Can somebody explain this? Drilling a rotor increases it's surface area.

Syscrush

Re: Can somebody explain this? Drilling a rotor increases it's surface area.