Area moment of inertia...which axis is which?

dgilmoreJNGSW · ‎09-02-2025

I'm trying to determine the area moment of inertia for a long beam with constant cross section. What Inventor returns is values for "Ix" and "Iy". But it is extremely confusing which principal axes these refer to. I realize they pass through the centroid, but which axis is x and which is y?

Maybe it follows the main, colored axes? Nope. In my example, the y axis comes perpendicularly out of the page, which would be meaningless. So the Iy refers to some other axis.

Maybe y is the vertical axis relative to the way the sketch is shown on the screen? Nope. If I turn the sketch 90 degrees and re calculate, I get the same values in the same order.

When I look it up online, they say that the "larger" area moment of inertial is given first, as Ix. Well...which axis is larger? For a simple part it might be obvious, but what about a complex part where it might be ambiguous which axis is producing the larger moment of inertia?

In my case, I think I know which axis would be the weaker one, but it is still sideways to how the sketch is oriented. The larger moment is listed as "Ix", but the stronger axis appears to be the vertical one. How am I supposed to know which axis is which in the answer?

dan_inv09 · ‎09-02-2025

Since you are using Region Properties then it is probably related to the sketch rather than the 3D model's coordinate system. If you go to the iProperties for the whole part then you can see inertia related to x, y, and z. (I must confess that I have never even see, let alone used, the region properties in a sketch.)

There is allegedly some logic to where horizontal and vertical are assigned for a sketch. You could probably try placing a horizontal constraint in your sketch to see where the x goes (or vertical for y).

dgilmoreJNGSW · ‎09-03-2025

As I mentioned, the figures Ix and Iy do not appear to have any relation to any coordinate system. Creating the sketch with the cross section rotated 90 degrees and calculating again just results in the same Ix and Iy in the same order, not reversed as would be expected. If there is no way to tell the axes apart, this is a terrible flaw. It is vital that we know which axis is which to properly calculate buckling forces and directions.

dan_inv09 · ‎09-03-2025

How did you create the sketch with the cross section rotated 90°?

Is there a reason you can't use the iProperties where Ixx, Iyy, Ixz, etc. are related to the parts 3D coordinate system?

When Inventor creates a sketch it assigns a coordinate system - I never know how it does it, it seems as if it waits until I try to make something horizontal and then decides that that must be vertical!

Maybe you could try this:

Right click when not in your sketch and Edit Coordinate System, then you should be able to make x or y whatever you would like (or at least see what it is).

dgilmoreJNGSW · ‎09-03-2025

How do you tell what the sketch coordinate system is? I simply oriented the part view so that the sketch plane was rotated, then I selected it and the sketch came up sideways. What is x? What is y? Is there a way to tell? If not, what do the parameters Ix and Iy mean?

dan_inv09 · ‎09-03-2025

Right click on your sketch in the browser, select Edit Coordinate System, the red arrow with the x next to it is the x the greenish arrow with the y is y.

You can pick a point to redefine the origin or move your axes to some edge or something. When you redefine an axis you can right click and flip the whole thing.

To see what it is: Right click on your sketch in the browser, select Edit Coordinate System (then you can esc out if you don't need to change it)

dgilmoreJNGSW · ‎09-03-2025

This does not fix my issue. The problem is that the coordinate system does not appear to have any connection with the region properties. Regardless of what the coordinate axes are set to, the Region Properties gives me values of Ix and Iy that are always the same. They have no relationship with the x and y of the coordinate system whatsoever, nor do they have any connection with the vertical or horizontal directions. It appears that it simply makes Ix the larger of the two values, which is useless.

As I have stated before, it is crucial to know what area moment of inertia goes with what principal axis, otherwise it's meaningless. In my present sketch, what is listed as "Iy" appears to be the area moment of inertia about a horizontal axis. The horizontal axis of my sketch (and the model) is shown as the Z axis. This is all crazy.

I there no way to know?

dan_inv09 · ‎09-03-2025

So you changed the coordinate system by using Edit Coordinate System and it did not change the values?

What did it give you when you got out of the sketch and got you moment of inertia from the iProperties?

dgilmoreJNGSW · ‎09-04-2025

Area moment of inertia (not mass moment) is a property of a specific 2D cross section, not an intrinsic parameter of the solid. It won't be in the iProperties. The units are in length to the fourth power and have no relation to the mass, nor the rest of the part geometry for that matter. This is simple, undergraduate mechanics. The terms Ix and Iy can only apply to that sketch and, as principal axes, should pass through the centroid of that sketch (NOT the center of gravity of the model).

No matter what I do, the values are only reported as "Ix" and "Iy". There is never an Iz, no matter how the axes are arranged. The Ix value is always the larger of the two, regardless of how the sketch or the coordinate system are oriented. This is tantamount to listing the two properties at random. As I mentioned before, if this were a complex cross section it would be difficult or impossible to determine which axis is which, short of doing a laborious hand calculation. This needs to be fixed.

dgilmoreJNGSW · ‎09-04-2025

OK, I guess I figured it out. In File>Options>Sketch>Display there is a check box to turn on the "sketch" coordinate system indicator, an auxiliary RBG indicator in each sketch. It is different than the global one and different than the center of gravity one, automatically assigned and probably not editable. I tried it out and no matter where you start a sketch, it always sets up x and y in the sketch plane and z coming out of the plane. Y is not always vertical, but the moments Ix and Iy appear to follow this UCS. I tried some simple rectangular sketches and Ix and Iy correspond to their proper axes. As long as I leave this box checked, I should be OK.

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Area moment of inertia...which axis is which?

Area moment of inertia...which axis is which?

Area moment of inertia...which axis is which?