A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Fire behaviour of steel-PU foam panels
The combustibility ratings in different countries of steel skin panels with rigid polyurethane foam cores are outlined. The author then argues that, though such panels may be classified as combustible because of the core material, what matters is the actual fire behaviour of the sandwich panels in practice, illustrated by examples. The general conclusion is that the panels neither maintain nor spread fire. His paper is based on a report by the West German association for furthering the use of steel components in building, IVBS, of Dusseldorf — Industrie-verband zur Forderung des Bauens mit Stahlblech.
Fire behaviour of steel-PU foam panels
The combustibility ratings in different countries of steel skin panels with rigid polyurethane foam cores are outlined. The author then argues that, though such panels may be classified as combustible because of the core material, what matters is the actual fire behaviour of the sandwich panels in practice, illustrated by examples. The general conclusion is that the panels neither maintain nor spread fire. His paper is based on a report by the West German association for furthering the use of steel components in building, IVBS, of Dusseldorf — Industrie-verband zur Forderung des Bauens mit Stahlblech.
Fire behaviour of steel-PU foam panels
Kellner, Theodor (author)
Building Research & Information ; 15 ; 281-284
1987-01-01
4 pages
Article (Journal)
Electronic Resource
English
Flexural Behaviour of Steel-Foam Concrete Composite Light-Weight Panels
| Online Contents | 2018
Flexural Behaviour of Steel-Foam Concrete Composite Light-Weight Panels
| Springer Verlag | 2018