Question? Just ask us!
Free Encyclopedia of Building & Environmental Inspection, Testing, Diagnosis, Repair
InspectAPedia ® Home
STRUCTURAL INSPECTIONS & DEFECTS
ADVANCED INSPECTION METHODS
AGE of a BUILDING - how to determine
ARCHITECTURE & BUILDING COMPONENT ID
BEST CONSTRUCTION PRACTICES GUIDE
BRICK FOUNDATIONS & WALLS
BRICK STRUCTURAL WALL BULGED, LOOSE
BRICK WALL THERMAL EXPANSION CRACKS
BRICK VENEER WALL LOOSE, BULGED
BRICK WALL DRAINAGE WEEP HOLES
BUCKLED FOUNDATIONS due to INSULATION?
BUILDING DAMAGE ASSESSMENT & REPAIR
BUILDING SAFETY HAZARDS GUIDE
CHIMNEY INSPECTION DIAGNOSIS REPAIR
COLD POUR JOINTS, CONCRETE
COLUMNS & POSTS, DEFECTS
CONCRETE FOUNDATIONS, PRE-CAST
CONNECTORS, FASTENERS, TIES
Cracks, Checking or Splitting Beams & Log Homes
DECK & PORCH CONSTRUCTION
DECK COLLAPSE Case Study
DEFINITIONS of MOBILE HOME, DOUBLEWIDE, MODULAR, PANELIZED CONSTRUCTION
DEFINITIONS of ENGINEERED WOOD OSB LVL etc
DEW POINT TABLE - CONDENSATION POINT GUIDE
DISASTER BUILDING INSPECTION & REPAIR
EARTHQUAKE DAMAGED FOUNDATIONS
FLOOD DAMAGE ASSESSMENT, SAFETY & CLEANUP
FLOOR, ENGINEERED WOOD, LAMINATES INSTALL
FLOOR FRAMING & SUBFLOOR for TILE
FOOTING & FOUNDATION DRAINS
FOOTINGS EXPOSED, Repair Methods
FOUNDATION CONSTRUCTION TYPES
FOUNDATION CONTRACTORS, ENGINEERS
FOUNDATION CRACK DICTIONARY
FOUNDATION FAILURES by MOVEMENT TYPE
FOUNDATION INSPECTION METHODS
FOUNDATION INSULATION OPTIONS
FOUNDATION MATERIALS, Age, Types
FOUNDATION REPAIR METHODS
FRAMING DAMAGE, INSPECTION, REPAIR S
FRAMING CONNECTORS & JOIST HANGERS
FRAMING MATERIALS, Age, Types
FRAMING SIZE & Spacing, Age, Types
FRAMING TABLES, SPANS for DECKS
FROST HEAVES, FOUNDATION, SLAB
GRADING, DRAINAGE & SITE WORK
GUTTERS & DOWNSPOUTS
HOUSE PARTS, DEFINITIONS
I-JOISTS, Wood Roof Floor
ROOF ICE DAM LEAKS
INSECT INFESTATION / DAMAGE
LOG HOME GUIDE
LVL Laminated Veneer Lumber, Beams
MOBILE HOMES, DOUBLEWIDES, TRAILERS
MODULAR HOME CONSTRUCTION
MOISTURE CONTROL in BUILDINGS
NOISE / SOUND DIAGNOSIS & CURE
OSB - Oriented Strand Board
PLYWOOD Roof, Wall, Floor Decks & Sheathing
PORCH CONSTRUCTION & SCREENING
PRE-CUT & KIT HOMES
PRESERVATIVE TREATED LUMBER
RETAINING WALL DESIGNS, TYPES, DAMAGE
RETAINING WALL GUARD RAILINGS
ROT, FUNGUS, INSECT DAMAGE
SEARS KIT HOUSES
SINKHOLES, WARNING SIGNS
CONCRETE SLAB CRACK EVALUATION
CONCRETE SLAB CRACK REPAIR
STAIRS, RAILINGS, LANDINGS, RAMPS
STONE VENEER WALLS
STRAW BALE CONSTRUCTION
STRESS SKIN INSULATED PANELS
STRUCTURAL DAMAGE PROBING
STRUCTURAL WOOD ASSESSMENT
SUMP PUMPS GUIDE
TEST KITS for DUST, MOLD, PARTICLE TESTS
THERMAL EXPANSION CRACKS in BRICK
THERMAL MASS in BUILDINGS
TIMBER FRAMING, ROT
TRUSS UPLIFT, ROOF
TRUSSES, FLOOR & ROOF
WALL CONSTRUCTION BARRIER vs CAVITY
WATER BARRIERS, EXTERIOR BUILDING
WATER ENTRY in BUILDINGS
WINTERIZE A BUILDING
WOOD STRUCTURE ASSESSMENT
Bulged foundation wall repair methods: This article explains how to Repair Bulged, Cracked Building Foundations using pilasters, steel reinforcement, foundation anchors, sister walls, or wall reconstruction methods. In this masonry foundation or wall repair article series we explain how it is possible to be confident about the cause of and repair for foundation damage, and we describe various methods used to repair cracked or bulged, bowed or in some cases leaning or tipped foundation walls.
The photograph at the top of this page shows a concrete block wall which has bulged and is in danger of collapse due to earth pressure from outside. The photo above shows a foundation wall reconstruction in process for a poured concrete foundation wall that settled and cracked at the time of construction.
Green links show where you are. © Copyright 2015 InspectApedia.com, All Rights Reserved.
Here we illustrate and describe several methods used to stiffen or reinforce bulging foundation walls against further movement.
The motive for a decision to reinforce a building foundation rather than rebuild it can be easily understood by noticing the difference in cost between bolting a few vertical steel beams to a building or building a pilaster and the cost to add temporary support to the floors above, remove an existing foundation, and rebuild a new one in its place.
[Click to enlarge any image]
However the decision to support or reinforce a foundation wall versus rebuilding it is often made by the wall itself. If the amount of bulge or bow is sufficiently severe the wall needs to be rebuilt.
If the underlying source of wall damage cannot be reliably addressed without excavating outside to add drainage and perhaps water proofing, there is additional motivation to perform a more costly repair.
The foundation bulge or lean repair methods listed below are roughly in order of their most common appearance in residential buildings. The sketch shown here describes application of a steel I-beam against a masonry block wall for reinforcement. More details are given below.
The Carson Dunlop sketch at above right shows how a pilaster may appear in a building for a different reason than an attempt to stiffen a bulging foundation wall. In this case the pilaster is supporting a beam placed as a girder to support the floor that will be constructed above. So don't assume just because you see a pilaster that it was built to address a foundation damage problem.
Pilasters may be constructed against the existing foundation wall(s) to add stability and resist further movement.
A pilaster is a masonry column or short wall which is constructed butting against the original wall at right angles. In this photo the masonry block pilaster is itself damaged and spalling. Additional repairs and steps to direct water away from this foundation wall are still needed.
The beam is placed with its side against the most-inward-protruding portion of the wall.
When you click on the photos below you'll see how the installer used a simple wood cross-bridge between the joists of the floor above to hold the top of the "I" beam in place against the foundation wall.
Often the bottom of the vertical I-beam is secured by breaking a hole into the concrete floor slab where the bottom of the I-beam is cemented in place.
Because the total bulge in the concrete block wall above was minor, and because analysis of the wall gave convincing evidence that the only wall damage and movement had occured at time of construction, during backfill, the contractor repaired the wall by adding safety-reinforcement: steel I-beam pilasters secured to the floor structure at the wall top and let into the concrete slab at the wall bottom.
The I-beam contacts the concrete block wall only at its most inward-bulged point.
[Click these or any image at InspectApedia to see an enlarged, detailed version.]
Foundation Anchors may be used to stabilize a foundation wall which is not badly damaged. This approach uses horizontal driven pins to anchor the wall to the surrounding soil and resist resist further movement.
Special products are available which employ an expanding soil anchor at the outside end of the horizontal pin.
In this photograph we show a rectangular steel plate and just the end of a threaded steel rod which is all that one can see of the foundation anchor which had been driven through the foundation wall and into the surrounding soil.
Guide to Using Interior or Exterior Reinforcing Sister Walls for Repair of Foundation Wall Bulge, Cracks, Movement
An inside or outside foundation-reinforcing wall may be constructed against the bulged foundation wall. Unless the outside cause of bulging (such as water or frost) is also corrected, we are doubtful about the durability of this approach. In this photograph there had been a history of water entry and foundation wall cracks and movement at the front of this office building built with a portion of its foundation wall sitting on sloped bedrock.
The contractor built a reinforced concrete block against the damaged foundation wall, an effort which was largely successful at reducing most, but not all of the water entry (and mold) in the building. Simple measures outside to properly handle roof runoff by directing it against the foundation, and normal gutter maintenance, would help considerably in drying out this area.
The sketch describes application of a reinforced concrete wall on the exterior of a building foundation.
Steel tension cables + stars (reinforcing plates) are sometimes used to anchor the wall to the surrounding soil and resist further movement but more normally this approach is used to strengthen and cross-tie above-ground walls in masonry buildings. It's common to see these outside reinforcing plates on pre-1900 multi-story brick buildings which no longer rely just on floor framing to tie opposing masonry walls together.
Reconstruction of the entire foundation wall is the repair usually called-for by masons and while probably the most-costly, is often the most effective repair method since it permits installation of drainage around the wall exterior as part of the procedure:
excavation and reconstruction of a near-failing or failed foundation wall may possibly include in the new wall, additional reinforcement over the original design and with additional foundation and site drainage.
In the photo shown here the rear and a portion of the rear right masonry block foundation walls had to be rebuilt after the foundation began to collapse during a period of heavy rain.
Continue reading at FOUNDATION BULGE or LEAN MEASUREMENTS or select a topic from the More Reading links shown below.
Suggested citation for this web page
Green link shows where you are in this article series.
Frequently Asked Questions (FAQs)
No FAQs have been posted for this page. Try the search box below or CONTACT US by email if you cannot find the answer you need at InspectApedia.
Use the "Click to Show or Hide FAQs" link just above to see recently-posted questions, comments, replies, try the search box just below, or if you prefer, post a question or comment in the Comments box below and we will respond promptly.
Search the InspectApedia website
HTML Comment Box is loading comments...
Technical Reviewers & References