Earth Contact Walls
Previous posts chronicled the amount of earth sheltering and specifically the north wall. In the end, the earth contact walls were poured in concrete which turns out to be a good decision but way beyond anything an inexperienced DIYer ought to tackle.
Since the north wall will be supported internally by only one "T"-wall and most of it backfilled to a depth of 12', it had to be treated as a free-standing retaining wall. The footing had to be 4' wide and 2' deep and the wall had to be 10" thick. In addition, it had three deadmen extending northward 5' that were 10' thick and 8' high. By turning the corner and extending the wall for 20' on the west side and 5' on the east side, the extensions also served as two more "deadmen". The final design was not that of the highly-paid structural engineer that stamped our plans but that of the experienced concrete contractor that we hired.
The engineer's design called for a 12" thick wall with an 8' footing and a fortune in #5 and 6 rebar mixed with the more common #4 rebar. By using the deadmen and by overlapping the footing with the slab floor, as advocated by Jamie Schulte, the contractor, the wall is far more stable at much lower cost. Our Building Director, the local permitting person, agreed.
Footing Excavations
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| Trenching for the north wall footing 2' deep and 4' wide |
Batter Boards
I used the house plans to set up batter boards, first, to guide Brian Hayes, our excavation
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| Mason lines and corner posts delineating stick-built walls |
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| Identical trenches for wide and narrow footings; Brian uses track loader to backfill pit between house and solar collector |
I used taut mason lines running between boards and the equivalent of a plumb-bob to find the outside corners of intersecting walls and drove stakes under the plumb-bob and then a nail on top of the stakes to mark the intersections precisely. I ran another line at the bottom of the trenches 5" inside the prospective 10" concrete walls and 4" inside the prospective 8" foundation walls under the stick-built walls to delineate the middle of the footings. I then used marking paint alongside of the string to transfer the middle of the footings to the bottom of the trenches.
Leveling the Narrow Footings
The tolerance in footing height for the insulated concrete forms (ICFs) that we are using for the foundation walls under the stick-built walls is tighter than for concrete foundation walls poured in conventional forms -- actually a variance of only 1/4". Then, when the ICFs are set dead level on the footings and filled with concrete, the concrete could be finished flush with the smooth tops of the forms to give a perfectly level foundation throughout the house.
The reason for opting for footings poured in wood forms, as opposed to pouring directly into the trenches as is commonly done and was done for our wide footing, was for more precise leveling. In order to accomplish it, I used the rotary laser as a guide for fastening a short piece of 1 x 4 to each corner post to delineate the exact height of the form boards -- therefore the final height of the footing itself. Using straight boards and setting all of them exactly level with one another was extremely important in assuring a level foundation wall and, since the concrete floor would be screed level with the top of the foundation wall, assuring a level floor as well.
Parenthetically, l should add a caveat. The decision was made later to increase the depth of the concrete slab from four inches to five to give it more strength. The extra inch could be gained by either reducing the amount of gravel base under the slab from four to three inches or by increasing the height of the foundation wall by raising the footing by one inch. I elected the latter for reasons yet to be discussed in a subsequent post.
