However, every now and then, it is a good idea to revisit or jog your memory back to the classical method of area moment of inertia calculation, and the section center of gravity calculations. But, first let us look at the Solid Works method of getting these section properties. But do you really understand what data it gives you? We can get the section properties of a given cross section by simply clicking some buttons. Nowadays, it is convenient to simply use either a CAD program like Solid Works, or an FEM pre-processor such as FEMAP to get all the data you need for a given section cut. Want to get instant updates on the latest posts like this one and a free Ebook?
They are zero about any axis normal to a plane of symmetry Products of inertia are a measure of the symmetry of a body about a set of axes.Products of inertia can be positive, negative or zero.Area moments of inertia are for a particular section or a 2D surface.Hence the smaller the inertia the more concentrated or closer the mass is about a particular axis. If the person stretches the arms out, she slows down and speeds up otherwise. Moments of inertia are a measure of the mass distribution of a body about a set of axes.Minimum moments of inertia axes always pass through the center of mass.In this post we will dig into a few things, one of the most common values (area moment of inertia ‘I’) used in a number of margin of safety calculations, principal area moment of inertia calculation, the orientation of the principal axes, and an example case with pure unsymmetric bending.įirst things first, let us do a simple recap of the basics:
Area Moment of Inertia Calculation Click this link to download the pdf version of this blog post…Īrea Moment of Inertia Calculation – CAD (FEM is similar) method Vs Classical Hand Calculations method.