2026-04-13T13:15:23Zhttps://recercat.cat/oai/request

oai:recercat.cat:2117/4462112026-02-07T10:01:25Zcom_2072_1033col_2072_452950

RECERCAT author Bustamante Mora, Boris André author Arrayago Luquin, Itsaso author González de León, Isabel author Real Saladrigas, Esther 2025-12 Stainless steel is a structural material with increasing demand for its aesthetic and mechanical properties, as well as its potential in seismic design due to its ductility and strain hardening. However, research on the behaviour of stainless steel under seismic loads is scarce, especially when focused on the global response of structures. One of the key parameters governing the seismic response of systems is the rotation capacity of structural members and compacts, for which recent investigations have proposed predicting expressions under cyclic bending. However, in more complex loading cases such as members subjected to constant axial loads (i.e., gravity loads) and cyclic bending (i.e., seismic actions), the existing expressions for predicting the rotation capacity are very complex or only applicable to a limited range of cases. In this context, the present investigation proposes simple analytical expressions to predict the full moment-rotation diagrams of austenitic stainless steel hollow section elements under combined axial loading and cyclic bending. The proposal is based on an extensive numerical parametric study considering a range of elements under different local slendernesses and several levels of axial loading. The rotation capacities and corresponding bending moment resistances are related to the key affecting parameters, such as the axial load, section stiffness and local slenderness, from which the key features of the full momentrotation diagrams can be obtained for the characterisation of plastic hinges, allowing a more efficient seismic design of stainless steel structures.The third author acknowledges the financial support received from the Spanish Ministry for Science, Innovation and Universities through the FPI-MINECO PhD fellowship Ref. BES-2017–082958.Peer ReviewedPostprint (published version) http://creativecommons.org/licenses/by/4.0/ Open Access Attribution 4.0 International Àrees temàtiques de la UPC::Enginyeria civil::Materials i estructures::Materials i estructures metàl·liques Stainless steel Cyclic loading Combined loading Rotation capacity RHS member Moment-rotation diagram Expressions to predict the rotation capacity of austenitic stainless steel members under constant axial load and cyclic bending Article