ishiboo
Well-known member
I have a 2x8 floor which is quite bouncy (13'6" span, old wood), which I'd like to stiffen some. With the way things are laid out, it would be difficult to sister a second set of full-length 2x8s.
I have a ton of 1/2" OSB, I'm thinking about ripping some down to 7" tall pieces (to account for the plaster sticking up above the lath) and installing it on a tight nailing/glue schedule, on either one or both sides of the center 4-5 joists.
From my armchair engineer standpoint (actually I went to school for EE/ME, but never completed), this would stiffen the joists quite a bit... am I wrong?
There is also modern-style blocking, which I would have to remove and replace... but instead of just one set down the middle I think I would do 3 sets distributed evenly.
Anything expensive/fancy is out of the picture, ie sistering steel plate... there is no noticeable sag and I want to keep the budget low on this, would just like to help the bounce if there's an easy way of doing so.
TIA!
I have a ton of 1/2" OSB, I'm thinking about ripping some down to 7" tall pieces (to account for the plaster sticking up above the lath) and installing it on a tight nailing/glue schedule, on either one or both sides of the center 4-5 joists.
From my armchair engineer standpoint (actually I went to school for EE/ME, but never completed), this would stiffen the joists quite a bit... am I wrong?
There is also modern-style blocking, which I would have to remove and replace... but instead of just one set down the middle I think I would do 3 sets distributed evenly.
Anything expensive/fancy is out of the picture, ie sistering steel plate... there is no noticeable sag and I want to keep the budget low on this, would just like to help the bounce if there's an easy way of doing so.
TIA!




Of course sistering works, and is the "easy" way of doing this. Every joist has a certain amount of deflection under a certain amount of load. By sistering, assuming the new lumber is the same as the old number, you would have half the deflection for the same load.