Polar moment of inertia for a shaft with slot

AI Thread Summary
The discussion revolves around calculating the polar moment of inertia for a hollow shaft with three circular slots, specifically for use in diverters in oil and gas applications. Participants suggest using the formula J = π(D^4 - d^4)/32 for the hollow shaft and recommend subtracting the inertia of the slots from the total inertia. The dimensions of the slots are provided, including their length, width, and radius of the rounded ends. It is also advised to approximate the slot shape to a cuboid for easier calculations and to apply the parallel axis theorem to determine the moment of inertia about the shaft's axis. The conversation emphasizes the importance of accurate dimensions and visual references for precise calculations.
chaitac
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Homework Statement


HI
Can anyone help me in finding out the polar moment of inertia of a hollow shaft with 3 circular slots . Its used in design of DIVERTERS in oil and gas application.


Homework Equations





The Attempt at a Solution

 
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Do you have a diagram?

Do you know the dimensions of the slots? If you do, then you can just subtract the inertia of the slots from the inertia of the hollow shaft.

J= πd4/32
 
The slots are 1.031 long and 0.688 wide Like a Mill Slot . they are rounded at the end(Radius of the rounded ends 0.344). they are 3 slots at 120 degree apart place radially.

Thanks
 
I think the polar moment of inertia for a hollow shaft is J = π(D4-d4)/32 when derived from its center. I have the slots 0.250 distant from the end of the shaft. How does it change the MOI?
 
chaitac said:
The slots are 1.031 long and 0.688 wide Like a Mill Slot . they are rounded at the end(Radius of the rounded ends 0.344). they are 3 slots at 120 degree apart place radially.

Thanks

I think then, you can assume that they are like cylinders then, and just subtract them from the inertia of the entire thing. But I'm not too sure what a Mill Slot looks like so it is possible that I may suggesting the wrong thing.
 
_____
(_____)

I hope you got how the slot is looking .
 
Last edited:
chaitac said:
http://www.lukescustoms.com/Page11_Rail_Milling/Foregrip_Slot.JPG

my part is similar to the pic in the link (its a section view) its a hollow shaft with slot in it. how can we calculate the moi for the part.

Well in that case, I'd just approximate that shape to a cuboid.

Just find the inertia about its own center and then use the parallel axis theorem to find the inertia about the axis of the shaft.
 

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