Nonlinear simulation of lattice girder segment tests

Abstract Lattice girders often replace conventional steel rib arches as a means of temporary support in tunnels and often have a comparative advantage over the latter mainly due to their lighter weight. Their use is directly related to the application of a shotcrete layer, in which they are encased, forming thus a composite structure that has been proved successful over numerous projects worldwide. However, any loads from the surrounding rock before shotcrete placement or hardening, have to be carried out by the lattice girder itself. Such loads may be concentrated in parts of the girder, due to sliding or falling blocks, detaching strata, reacting ground, etc. Their effects on it, which are nonlinear, necessitate analysis with detailed models; their adequacy should be experimentally validated. Therefore, a series of loading tests is conducted on simply supported arched lattice girder segments, in which the load is induced horizontally at the roller support. These tests are then simulated numerically with various 3D models. The appropriateness of the latter is thus checked by comparing the ultimate loads and deflections, which were found to be limited by buckling.