LUGuy
Structural
- Dec 17, 2003
- 34
I am reviewing the addition of a steel column to the top of an existing unreinforced stone foundation. The wall is set with stones that are relatively flat and maybe 2"-3" tall, several inches on the flat. I am approximating that the proportion of stone to mortar/cement is about 2 or 3 to 1. The wall is about 12" thick and 7' tall (exposed height.) The wall is maybe 100 years old.
The wall currently has two similar columns bearing directly on top without problem. The building owner wants to add another column at a different location with 50% greater loadings. Is there any reasonable way to determine the capacity of such a wall for vertical load? The loading is somewhere in the neighborhood of 50 kips.
I have been considering knocking out a 12" deep section 4'-6' long at the top to create a reinforced concrete "beam" to help distribute the forces and provide for installation of anchor bolts. But I haven't assured myself what load should be allowed on a stone wall. This scheme would have forces of about 10,000 lbs / sf at the bottom of the new beam acting on the stone wall.
I am interested to see if others have run into a similar situation.
The wall currently has two similar columns bearing directly on top without problem. The building owner wants to add another column at a different location with 50% greater loadings. Is there any reasonable way to determine the capacity of such a wall for vertical load? The loading is somewhere in the neighborhood of 50 kips.
I have been considering knocking out a 12" deep section 4'-6' long at the top to create a reinforced concrete "beam" to help distribute the forces and provide for installation of anchor bolts. But I haven't assured myself what load should be allowed on a stone wall. This scheme would have forces of about 10,000 lbs / sf at the bottom of the new beam acting on the stone wall.
I am interested to see if others have run into a similar situation.
