CSFlanagan
Structural
A client has a 1980's era 2 story warehouse building. The second floor is concrete over 1 1/2" metal decking, 5" total thickness. The floor deckcing is upported by W16x26 beams spaced at 7'-6" oc, spanning 33 feet between W24x55 girders. Girders sit atop W8 columns.
The floor was recently overloaded. The load has since been removed. The W16 floor beams have sagged permanently (approximately 2"-3" at mid-span). The W24 girder webs have buckled where they sit over top of first floor columns. (See photos attached).
Using a 67 psf dead load for the concrete floor, the W16's have very little capacity left. Even at 30 psf live load, the W16's are still failing due to total deflection exceeding l/240. And bending stress is 97% of maximum.
That doesn't make sense, so now I'm wondering if the floor was designed compositely. The decking looks like a composite deck, but I can't be sure. And 7'-6" is a long construction span for the metal decking, especially if it is a simple span.
How can I determine if the floor beams are designed compositely without going through a lot of destructive testing? There are no drawings of the existing building.
Thanks,
Scott
The floor was recently overloaded. The load has since been removed. The W16 floor beams have sagged permanently (approximately 2"-3" at mid-span). The W24 girder webs have buckled where they sit over top of first floor columns. (See photos attached).
Using a 67 psf dead load for the concrete floor, the W16's have very little capacity left. Even at 30 psf live load, the W16's are still failing due to total deflection exceeding l/240. And bending stress is 97% of maximum.
That doesn't make sense, so now I'm wondering if the floor was designed compositely. The decking looks like a composite deck, but I can't be sure. And 7'-6" is a long construction span for the metal decking, especially if it is a simple span.
How can I determine if the floor beams are designed compositely without going through a lot of destructive testing? There are no drawings of the existing building.
Thanks,
Scott