Foundation Walls
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Transcript Foundation Walls
Building Foundations
Foundation Walls
Footings
A base
Monolithic
construction
Independent
construction
Foundation-Wall Footings
Spread footings
Undisturbed soil
Footing Design
Prevent settling or
cracks
Minimum of 12” below
grade. Below frost line
Thickness = thickness
of foundation wall
Width = 2x thickness of
foundation wall
Footing Reinforcement
Rebar embedded
2
lengths of ½”
diameter (#4)
rebar
Positioned
minimum of 3”
above bottom
Footing Forms
Form
steel, lumber, or
combination of
lumber &
plywood.
Keyway
Other Types of Footings
Pier and post
Stepped
Footings
Footing Drains
4” diameter pipes at
base of footing
Carries water away
from house.
Sloped at least 1/8” per
foot
Landscaping Fabric
Poured-Concrete Foundation
Walls
Durable & water
resistant
Most building sites
Support any type of
house
8 –10” thick
Min. compressive
strength 2500 psi
Most 8’ high
Full Height Walls
Formwork
Reusable forms
Wales
Standard Wall Forms
Wood or metal
Built on site
Prefabricated
forms
Snap-ties
3 –7 days
Insulating Wall Forms
ICFs (Insulating
Concrete Forms)
Permanent
Basic
components
planks,
sheets, or
hollow blocks
Standard wall
Grid wall
Placement
Poured continuously
without interruption
Cold joint
Water content
Remove Air pockets
Concrete vibrator
(stinger)
Crawl-space Walls
Advantage –
reduced cost
Soil cover
Ventilated
Insulated
Piers support
Reinforcing Concrete Walls
Rebar centered in
wall
Lintel
Sill Plate Anchors
Anchor bolts
Metal strap
anchors
Sill sealer
Foundation Wall Details
Special
features:
Brick-veneer
siding
Utility Sleeves
Foundation Vents And
Windows
Metal vents
Rust-resistant
steel frame
windows
Wood framing
(pressure treated)
Beam Pockets
Girder flush with
top of sill plate
Stripping and Maintaining
Forms
Wood wedges (no
metal pry bars)
Stiff bristle (not
wire) brush
Form-release
agent – Bio-slick
Moisture Protection
Bituminous (tar)
coating
Top of footings to
finished grade
level
Backfilling
Filling in
excavation area
Too soon, push in
foundation walls
First floor framing
Temporary
bracing
Concrete Block Walls
Popular for
foundation walls
No formwork
Blocks
inexpensive
Work stopped
and started
Concrete Block Basics
Concrete Masonry
Unit (CMU)
Head Joint
Bed Joint
Common bond
Pilasters
Protect from
freezing & moisture
Cutting Block
Brick hammer
and chisel
Portable masonry
saw
Mortar
Mortar bond
strength depends
on:
Type & quantity
Workability, or
plasticity
Surface texture
bedding areas
Rate at which
masonry units
absorb moisture from
mortar
Water retention
Skill of person laying
block
Mortar Mixtures
Portland cement,
hydrated lime, sand,
& water.
Prepackaged mortar
mix
Type N
Type M
Type S
Type O
Mixing and Placing Mortar
Evaporation
Hydration
2 ½ hour when air
temp is 80ºF or
higher
3 ½ hours when air
temp is below 80ºF.
Laying Block Foundation
Walls
Skilled masons
Corners built first
Story pole
(course pole)
Intersections
Control joint
Tooling the Joints
Weather tight
joints & neat
block walls
“Thumbprint hard”
Tooling compacts
Head joints, then
bed joints
Completing the Walls
Hollow block
walls capped
Strengthened with
rebar
Moisture Protection
Damp proofed
or waterproofed
Parging
Radon
Colorless &
odorless
radioactive gas
Extremely toxic
Lung cancer
Soluble in water
9X heavier than
air
Radon-Resistant Construction
Gas-permeable
layer
Soil-gas retarder
Sealants
Vent pipe
Cap course
Review
1.
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5.
6.
7.
What is the minimum depth required for an
exterior-wall footing?
Describe the type and position of reinforcement
that is commonly added to strengthen a footing.
What is a keyway and how is it formed?
For nearly all poured-concrete foundation walls,
formwork must be constructed for each wall face.
What holds the formwork together?
What creates a cold joint?
Why are the joints in a concrete block wall
tooled?
When using mortar, why is it helpful to know the
differences between hydration and evaporation?