TY - JOUR AB - A mortise–tenon steel-tube scaffold, a new steel-tube scaffold, was presented based on ancient mortise–tenon joint in wood structure. Because of better joint mechanics and higher bearing capacity than coupler-type steel-tube scaffold, this new scaffold possesses good market potential. Based on an analysis of the bearing mechanism, a finite element numerical analysis model for the mortise–tenon steel-tube scaffold was established in this study, which was validated as reasonable and accurate by experiment data. Influencing laws of storey height, vertical member interval, X-bracing layout, overall structure height, height of bottom horizontal tube, and height of upper cantilever bar on the mortise–tenon steel-tube scaffold were determined through parameter analysis. A simplified calculation formula of ultimate bearing capacity was established, which verified by FEM results and test data. Research results provide important references for future in-depth studies and engineering applications of the mortise–tenon steel-tube scaffold. AD - State Key Laboratory of Hydraulic Engineering Simulation and Safety, Tianjin University, Tianjin 300072, China AU - Liu, H. B. AU - Zhou, Y. AU -  , Z. Chen AU - Liu, Q. DO - 10.18057/IJASC.2018.14.2.9 IS - 2 KW - Mortise–tenon joint, steel-tube scaffold, numerical simulation, parameter analysis, simplified calculation formula PY - 2017 SE - 291 SP - 17 ST - Structural performance and design method of new mortise–tenon full steel-tube scaffold T2 - Advanced Steel Construction TI - Structural performance and design method of new mortise–tenon full steel-tube scaffold VL - 14 ID - 1 ER -