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An optimum selection of alloy for aluminium structures exposed to fire
Analytical methods for calculating fire resistance of aluminium structures, specified in (HRN) EN 1999-1-2, are presented in the paper. Since aluminium as a material loses its mechanical properties at lower temperatures compared to steel, the correct selection of aluminium alloy in terms of minimal reduction of mechanical properties is essential for satisfying fire-related requirements. For clarifying the influence of selecting aluminium alloy for obtaining an optimum fire resistance, a parametric analysis is presented to demonstrate the influence of aluminium alloy on the design fire resistance of a load-bearing aluminium column.
An optimum selection of alloy for aluminium structures exposed to fire
Analytical methods for calculating fire resistance of aluminium structures, specified in (HRN) EN 1999-1-2, are presented in the paper. Since aluminium as a material loses its mechanical properties at lower temperatures compared to steel, the correct selection of aluminium alloy in terms of minimal reduction of mechanical properties is essential for satisfying fire-related requirements. For clarifying the influence of selecting aluminium alloy for obtaining an optimum fire resistance, a parametric analysis is presented to demonstrate the influence of aluminium alloy on the design fire resistance of a load-bearing aluminium column.
An optimum selection of alloy for aluminium structures exposed to fire
Ivica Boko (author) / Davor Skejić (author) / Neno Torić (author) / Antonela Čolić (author)
2020
Article (Journal)
Electronic Resource
Unknown
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Local buckling of aluminium structures exposed to fire
| Online Contents | 2009
Local buckling of aluminium structures exposed to fire
| Online Contents | 2009