Our good friends at LSTC, makers of LS-DYNA, put this list together to present to their customers. We decided we liked it so much, we'd share it as well.
A recent project of note involved heavy-lifting undersea cables. As George says, "We really don’t have any specialty as FEA consultants, except how to figure out how to model complex systems."
That was especially true in this complex project involving the dynamic movement of undersea tensioned cables. As the cables pump or tow objects, they whip back and forth due to both sea currents and lift operations. With an estimated cost per cable in the millions of dollars, it was crucial to find a model solution.
Our work demonstrates a numerically elegant manner to simulate the FSI forces acting on large diameter high-modulus polyethylene rope (Spectra) during a deep-sea heavy lift operation.
Dr. Laird recently finished a new LS-DYNA case study focusing on O-Ring Analysis. As he states in the intro, the analysis of O-rings has historically been difficult since the modeling process involves large displacement, and large nonlinear strains couple to multi-body contact between the O-ring, its gland cavity and the mating part.
In our prior engineering services work, we would have to run the model in explicit mode and just live with the long run times even through the model was axisymmetric. In the last couple of years, the implicit capabilities of LS-DYNA have significantly grown and we can now run such models much faster and with no inertia effects.