The feasibility of using meshfree methods in nonlinear structural analysis is explored in an attempt to establish a new paradigm in structural engineering computation. A blended finite-element and meshfree Galerkin approximation scheme is adopted to solve the inelastic response of plane frames. In the proposed method, moving least-squares shape functions represent the displacement field, a plane stress approximation of the two-dimensional domain simulates beam bending, J2 plasticity characterizes material behavior, and stabilized nodal integration yields the discrete equations. The particular case of steel frames composed of wide flange sections is investigated, though the concepts introduced can be extended to other structural materials and systems. Results of numerical simulations are compared with analytical solutions, finite-element simulations, and experimental data to validate the methodology. The findings indicate that meshfree methods offer an alternative approach with enhanced capabilities for no...