Additive Manufacturing of Structural Shells for Venus Surface Probes

The authors designed, built, and tested a lightweight metallic doubly curved structural shell using Ti-6Al-4V and Additive Manufacturing (AM) techniques. A 1 m diameter structural shell capable of surviving a Venus surface environment was designed and assessed via analytical methods and Finite Element Modeling (FEM). A small number of subscale test articles (200 mm diameter) were produced using Laser Powder Bed Fusion (LPBF). A full sphere was successfully tested under Venus-like pressures and temperatures at a Hot Isostatic Press (HIP) facility. Model correlation was performed on hemispherical shells using an ambient temperature isostatic pressure test chamber, and the results were compared with non-linear FEA and classical buckling models.