ADBU Journal of Engineering Technology

:In present study, numerical analysis carried out on Aluminium, Duralcan and their composite (HPL-High pressure laminate) Panels, implemented through a finite element model (FEM) as a unique quasi-static solution for adequacy of HPL as cladding for high rise buildings. The HPL panel is multi-stiffened material made by bonding stiff between high strength skins facing to low-density material. In current study, different sizes and different materials stiffened panels analyzed under lateral and wind response at high-rise building. The details study on materials (Aluminium, Duralcan and HPL) provide losses during the shear strength due to buckling. The model is implemented and calibrated with a numerical model developed in previous studies. High Pressure Laminates provides resistance to environmental effects, more durable and cheaper for decor surface. An achievement in overall performance under cyclic loading and high wind pressure of HPL is observed as an infill panel, later on also utilized as cladding. Furthermore, thermal insulation study should be carried out to check full occupancy of HPL for in situ practices.

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