WHAM
A transparent and user-friendly design tool for undertaking non-linear
sectional analysis of reinforced concrete walls and buildings cores
WHAM was developed as part of Scott Menegon’s Doctor of Philosophy dissertation, which was completed under the supervision of Prof. John L. Wilson, Prof. Nelson T. K. Lam and Prof. Emad F. Gad at Swinburne University of Technology. WHAM was developed primarily as a simple-to-use and transparent analysis program for predicting the nonlinear back-bone moment-curvature and force-displacement behaviour of slender (i.e. flexure controlled) RC walls and building cores. The program is intended to be used as either a design tool for structural engineers, research tool for academic researchers or educational tool for undergraduate and postgraduate engineering students.
Menegon, S.J., 2018. Displacement Behaviour of Reinforced Concrete Walls in Regions of Lower Seismicity, Doctor of Philosophy thesis, Department of Civil and Construction Engineering, Swinburne University of Technology.
Menegon, S.J., Wilson, J.L., Lam, N.T.K. and Gad, E.F., 2020. “Development of a user-friendly and transparent non-linear analysis program for RC Walls”, Computers and Concrete, Vol. 25(4), pp. 327-341.
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