Foundation Repair Glossary, The Entire List

As promised, here's our complete Foundation Repair Glossary in one great big list. Remember, if you have a question about any of these terms, be sure to ask us!

Active Zone

This is the depth of soil instability or movement, usually caused by changes in moisture. Sometimes, the active zone is referred to as the Seasonal Zone.

Bell Bottom Pier

A concrete pier that has a bell-shaped bearing surface.

Builder Piers

When the builder pours the grade beam for a pier and beam foundation, the builder piers are poured first. Builder piers are poured with a spacing of four to eight feet apart and to an average depth of three to four feet. These piers hold the grade beam in place. Sometimes builder piers fail, due to their low level of placement.

Clay

Crawl Space

The space between the bottom of the structure and the ground. This is common or necessary with pier and beam foundations. A properly engineered crawlspace allows enough room to vent moisture and allow for work on plumbing, electrical, and other utilities under the building.

Composed primarily of fine-grained minerals, clay is a naturally occurring component of soil. Clay expands greatly when mixed with water but then significantly contracts when water is withdrawn. Soil expansion and contraction is one of the leading causes of foundation failure.

Deviation

Deviation is the amount by which the structure is not level. That is, the structure has deviated from its specifications and true level. Naturally, a home with a great deal of deviation requires more work (piers) to bring it back to level.

Differential Settlement

The difference in movement vertically between different parts of the foundation; Non-trivial differential settlement can cause foundation failure.

Drilled Pier

Drilled piers involve drilling a hole at an angle to a predetermined depth under the slab, then using rebar to build a form in, then filling in the hole with concrete. If the conditions that caused the foundation to fail in the first place aren't remedied, then it's highly likely that the drilled pier will fail in time.

Elevation

Elevation is the series of measurements used to determine the difference in height between a central point and other points.

Engineers Report

An engineering report is done after a foundation has been repaired or before a structure is purchased. The report determines whether or not the foundation can perform its intended function and whether or not any remedial foundation repairs are necessary. In Texas, the report is a level "B" investigation (as described by the Texas Board of Professional Engineers and the American Society of Civil Engineers). The report will be sealed and signed by a Professional Engineer. The engineering report usually includes: Foundation Analysis, Interior Observations, Exterior Observations, Conclusions, Recommendations, and Photo File.

Epoxy Injection

Epoxy injection is used for concrete in manner similar to how welding is used for steel. That is, epoxy is used to fill cracks in concrete; often times, though, the cracks remain as weak point in the foundation.

Footing

Footings, typically constructed of steel-reinforced concrete, is the bottom part of the foundation. The footing spreads the vertical loads from the building sitting on top of the foundation. With slab foundations, the footing is usually two feet and runs the entire perimeter of the slab.

Foundation

A home foundation is that part of the structure that is in direct contact with the ground. The foundation transmits the weight of the entire home and itself to the supporting soil.

French Drain

A drain that is used to collect water that migrates under ground. It is not used to collect large amounts of water from a heavy rain fall. French Drains are usually dug down 36-48 inches. Then 1 1/4” river rock is placed at the bottom of the trench and a 4” corrugated pipe is placed over this rock. Once in place, the trench is filled with river rock to approximately 4-6” below grade. The last 4-6” are then topped with soil and/or sod.

Galvanizing

Galvanized metal is made via an electromechanical process by which steel (or iron, or other metal) is coated with a non-rusting metal, such as zinc. The zinc simply isn't painted on the steel but rather is deposited and bonded to the steel via electrode position. The long and short of it all is that the steel is protected by the zinc and not subject to rust.

Grade

The level of ground surface. The grade can also refer to the rise or fall of the ground over a given distance.

Grade Beam

The grade beam is the concrete support that goes around the perimeter of a Pier & Beam foundation. This is what home and bricks are supported by along the perimeters. The concrete grade beam is, on average, poured 18-20 inches below soil grade and is reinforced with rebar laid inside the concrete for additional support.

Helical Pier

A helical pier is a steel shaft to which circular steel plates have been welded at an angle (thing of a large screw). Helical piers offer more resistance and support than traditional steel piers, which do not have steel plates.

Initial Site Inspection

An initial site inspection determines the most likely cause of damage and if it's caused by the foundation. The initial site inspection requires the inspector to gather lots of information including but not limited to structural and architectural drawings, grading plans, and plat of survey.

Jacking

A method by which a static driving force is performed on a pile by jacks.

Live Load

This is the additional weight added to a structure by people, furniture, snow, ice, water, etc.

Mudjacking

A foundation repair process used by some foundation repair businesses where water and soil cement or soil-lime-cement grout is pumped beneath the slab to lift the slab to the desired position. We recommend mudjacking only for flat concrete surfaces such as garage floors, driveways, pool and patio decks.

Pier

A support under a structure's foundation. Piers can be made of wood, steel, concrete and sunk into the ground or resting atop ground (for smaller structures).

Pier and Beam

A foundation construction method where the structure is supported several feet off the ground by pillars and posts or pilings (a.k.a. the piers).

Pier Depth

The depth to which piers are sunk. Piers must reach a depth that provides adequate support. This means to bedrock or to a particular soil density. The deeper the piers must be sunk, the more expensive the foundation repair job will be.

Post-Tensioning Cable Foundations

A foundation construction technique where high-strength steel strands or cables, typically referred to as tendons, create a grid of steel cables that actively support the slab.

Pressed Pier

A pressed pier is made up of individual pilings that are pre-pressed and pre-formed. These pilings, in turn, are pressed into the ground using a hydraulic press. The individual pilings are locked to each other with steel shims or a piece of cable.

Rebar

Rebar, also known as reinforcing steel or reinforcement steel, is a common steel bar used to reinforced concrete.

Refusal

The condition reached when a pier can't be driven any farther, like when the pier reaches an impenetrable bottom such as rock). The term refusal may be used to indicate the specified minimum penetration per blow. Driving piers beyond refusal can damage the piers.

Retaining Wall

A retaining wall supports eroding soil in areas where the ground is likely to shift. Retaining walls can also provide additional support to foundations built up with fill dirt.

Root Barrier

Root barriers are physical barriers that redirect tree root growth downward, thus eliminating surface rooting that can damage foundations, sidewalks, driveways, and other hardscapes

Settlement

Settlement occurs when a part of the foundation drops below the original as-built grade.

Slab

A concrete foundation supported entirely by the surface soil. Slab foundations are popular in most new residential construction in areas with high-clay soils, such as that found in north Texas and southern Oklahoma.

Soaker Hose

A gardening hose capped on one end and containing hundreds of tiny perforations. A soaker hose set next to a structure's foundation can help maintain a consistent moisture level within the soil and help prevent foundation movement and, consequently, foundation failure.

Soil

The collection of loose material, including air, water, and solid particles, comprising the Earth's crust. It's comprised of a mixture of mineral and organic materials in solid, gaseous and aqueous states. When discussing foundation construction, maintenance, and repair, we are most concerned with the moisture content of the soil.

Soil Stability

Soil material (clay, sand, etc.) and drainage play a big part in how much water the soil can contain and how often that soil is asked to contain that water. If the soil's moisture content changes often and/or a great deal, your foundation will move as the soil contracts and expands with moisture.

Soil Stabilization

This is the process by which a contractor improves the natural properties of soil to make it a better base for construction. Soil stabilization reduces or eliminates erosion, controls the movement of water through a given parcel of soil, and seeks to moderate the soil's moisture content.

Structural Engineer

An independent registered professional engineer that specializes in civil or structural engineering.

Subsidence

The sinking of all or part of a structure's foundation.

Sump Pump

A pump which removes water from a sump pit. (The sump pits simply a hole into which water is drained; the sump pit is commonly found in the basement.)

Upheaval

The lifting of all or part of a structure's foundation.

Void Filling

A low pressure injection of grout slurry that fills the space between a foundation and the soil beneath the foundation.

Waffle Slab Foundation

Waffle slab foundations are formed when beams are poured throughout the interior until the pattern resembles a waffle.>

Get more information by visiting www.AceFoundation.com.

Foundation Repair Glossary, Part 4

Here's the last post in our four-part series, Foundation Repair Glossary. This post catches us up on terms that didn't make it into the prior three posts. Don't worry — we'll post the entire glossary from start to finish so you have the whole thing at your fingertips!

Bell Bottom Pier

A concrete pier that has a bell-shaped bearing surface.

Crawl Space

The space between the bottom of the structure and the ground. This is common or necessary with pier and beam foundations. A properly engineered crawlspace allows enough room to vent moisture and allow for work on plumbing, electrical, and other utilities under the building.

Deviation

Deviation is the amount by which the structure is not level. That is, the structure has deviated from its specifications and true level. Naturally, a home with a great deal of deviation requires more work (piers) to bring it back to level.

Differential Settlement

The difference in movement vertically between different parts of the foundation; Non-trivial differential settlement can cause foundation failure.

Drilled Piers

A pier formed by drill a hole at an angle to a predetermined depth, forming rebar within the hole, and then filling the hole with concrete (mixed with a curing agent). A drilled pier can be expected to fail if the conditions which caused the foundation to fail in the first place are not corrected.

Epoxy Injection

Epoxy injection is used for concrete in manner similar to how welding is used for steel. That is, epoxy is used to fill cracks in concrete; often times, though, the cracks remain as weak point in the foundation.

Galvanizing

Galvanized metal is made via an electromechanical process by which steel (or iron, or other metal) is coated with a non-rusting metal, such as zinc. The zinc simply isn't painted on the steel but rather is deposited and bonded to the steel via electrode position. The long and short of it all is that the steel is protected by the zinc and not subject to rust.

Helical Pier

A helical pier is a steel shaft to which circular steel plates have been welded at an angle (thing of a large screw). Helical piers offer more resistance and support than traditional steel piers, which do not have steel plates.

Initial Site Inspection

An initial site inspection determines the most likely cause of damage and if it's caused by the foundation. The initial site inspection requires the inspector to gather lots of information including but not limited to structural and architectural drawings, grading plans, and plat of survey.

Root Barrier

Root barriers are physical barriers that redirect tree root growth downward, thus eliminating surface rooting that can damage foundations, sidewalks, driveways, and other hardscapes

Pier and Beam

A foundation construction method where the structure is supported several feet off the ground by pillars and posts or pilings (a.k.a. the piers).

Pier Depth

The depth to which piers are sunk. Piers must reach a depth that provides adequate support. This means to bedrock or to a particular soil density. The deeper the piers must be sunk, the more expensive the foundation repair job will be.

Post-Tensioning Cable Foundations

A foundation construction technique where high-strength steel strands or cables, typically referred to as tendons, create a grid of steel cables that actively support the slab.

Pressed Pier

A pressed pier is made up of individual pilings that are pre-pressed and pre-formed. These pilings, in turn, are pressed into the ground using a hydraulic press. The individual pilings are locked to each other with steel shims or a piece of cable.

Rebar

Rebar, also known as reinforcing steel or reinforcement steel, is a common steel bar used to reinforced concrete.

Retaining Wall

A retaining wall supports eroding soil in areas where the ground is likely to shift. Retaining walls can also provide additional support to foundations built up with fill dirt.

Soaker Hose

A gardening hose capped on one end and containing hundreds of tiny perforations. A soaker hose set next to a structure's foundation can help maintain a consistent moisture level within the soil and help prevent foundation movement and, consequently, foundation failure.

Soil Stability

Soil material (clay, sand, etc.) and drainage play a big part in how much water the soil can contain and how often that soil is asked to contain that water. If the soil's moisture content changes often and/or a great deal, your foundation will move as the soil contracts and expands with moisture.

Structural Engineer

An independent registered professional engineer that specializes in civil or structural engineering.

Waffle Slab Foundation

Waffle slab foundations are formed when beams are poured throughout the interior until the pattern resembles a waffle.>

Get more information by visiting www.AceFoundation.com.

Foundation Repair Glossary, Part 3

If you've missed our Foundation Repair Glossary Part 1 and Part 2, then be sure to catch up now.

Slab

A concrete foundation supported entirely by the surface soil. Slab foundations are popular in most new residential construction in areas with high-clay soils, such as that found in north Texas and southern Oklahoma.

Soil

The collection of loose material, including air, water, and solid particles, comprising the Earth's crust. It's comprised of a mixture of mineral and organic materials in solid, gaseous and aqueous states. When discussing foundation construction, maintenance, and repair, we are most concerned with the moisture content of the soil.

Soil Stabilization

This is the process by which a contractor improves the natural properties of soil to make it a better base for construction. Soil stabilization reduces or eliminates erosion, controls the movement of water through a given parcel of soil, and seeks to moderate the soil's moisture content.

Subsidence

The sinking of all or part of a structure's foundation.

Sump Pump

A pump which removes water from a sump pit. (The sump pits simply a hole into which water is drained; the sump pit is commonly found in the basement.)

Upheaval

The lifting of all or part of a structure's foundation.

Void Filling

A low pressure injection of grout slurry that fills the space between a foundation and the soil beneath the foundation.

Do you have questions about our Glossary of Foundation Repair Terms? If so, then ask us and we'll get you the answer. Be sure to visit our website to learn more about foundation construction, maintenance, and repair.

Foundation Repair Glossary, Part 2

This is the second part in our glossary of foundation repair terms. Be sure to check out Part 1.

Grade

The level of ground surface. The grade can also refer to the rise or fall of the ground over a given distance.

Jacking

A method by which a static driving force is performed on a pile by jacks.

Live Load

This is the additional weight added to a structure by people, furniture, snow, ice, water, etc.

Mudjacking

A foundation repair process used by some foundation repair businesses where water and soil cement or soil-lime-cement grout is pumped beneath the slab to lift the slab to the desired position. We recommend mudjacking only for flat concrete surfaces such as garage floors, driveways, pool and patio decks.

Pier

A support under a structure's foundation. Piers can be made of wood, steel, concrete and sunk into the ground or resting atop ground (for smaller structures).

Refusal

The condition reached when a pier can't be driven any farther, like when the pier reaches an impenetrable bottom such as rock). The term refusal may be used to indicate the specified minimum penetration per blow. Driving piers beyond refusal can damage the piers.

Settlement

Settlement occurs when a part of the foundation drops below the original as-built grade.

Get more information by visiting www.AceFoundation.com.

Foundation Repair Glossary, Part 1

We'd thought we'd do something a little different over the next few posts and present a glossary of terms commonly used when discussing building foundation construction and repair. Let us know what you think!

Active Zone

This is the depth of soil instability or movement, usually caused by changes in moisture. Sometimes, the active zone is referred to as the Seasonal Zone.

Builder Piers

When the builder pours the grade beam for a pier and beam foundation, the builder piers are poured first. Builder piers are poured with a spacing of four to eight feet apart and to an average depth of three to four feet. These piers hold the grade beam in place. Sometimes builder piers fail, due to their low level of placement.

Clay

Composed primarily of fine-grained minerals, clay is a naturally occurring component of soil. Clay expands greatly when mixed with water but then significantly contracts when water is withdrawn. Soil expansion and contraction is one of the leading causes of foundation failure.

Drilled Pier

Drilled piers involve drilling a hole at an angle to a predetermined depth under the slab, then using rebar to build a form in, then filling in the hole with concrete. If the conditions that caused the foundation to fail in the first place aren't remedied, then it's highly likely that the drilled pier will fail in time.

Elevation

Elevation is the series of measurements used to determine the difference in height between a central point and other points.

Engineers Report

An engineering report is done after a foundation has been repaired or before a structure is purchased. The report determines whether or not the foundation can perform its intended function and whether or not any remedial foundation repairs are necessary. In Texas, the report is a level "B" investigation (as described by the Texas Board of Professional Engineers and the American Society of Civil Engineers). The report will be sealed and signed by a Professional Engineer. The engineering report usually includes: Foundation Analysis, Interior Observations, Exterior Observations, Conclusions, Recommendations, and Photo File.

Footing

Footings, typically constructed of steel-reinforced concrete, is the bottom part of the foundation. The footing spreads the vertical loads from the building sitting on top of the foundation. With slab foundations, the footing is usually two feet and runs the entire perimeter of the slab.

Foundation

A home foundation is that part of the structure that is in direct contact with the ground. The foundation transmits the weight of the entire home and itself to the supporting soil.

French Drain

A drain that is used to collect water that migrates under ground. It is not used to collect large amounts of water from a heavy rain fall. French Drains are usually dug down 36-48 inches. Then 1 1/4” river rock is placed at the bottom of the trench and a 4” corrugated pipe is placed over this rock. Once in place, the trench is filled with river rock to approximately 4-6” below grade. The last 4-6” are then topped with soil and/or sod.

Grade Beam

The grade beam is the concrete support that goes around the perimeter of a Pier & Beam foundation. This is what home and bricks are supported by along the perimeters. The concrete grade beam is, on average, poured 18-20 inches below soil grade and is reinforced with rebar laid inside the concrete for additional support.

We'll keep these rolling over the next few posts. As always, if you have a question, feel free to ask us anything about foundation construction and repair!

Get more information by visiting www.AceFoundation.com.

Pier & Beam versus Slab Foundation, Part 2

This is the second part in our multi-part series of posts, "Pier and Beam versus Slab Foundation." Be sure to read the first post in this series, if you haven't already.

In our last post, we discussed pier and beam foundations (sometimes called post and beam foundations), including what they were, and their pros and cons. In this post, we'll covered the basics of slab foundations.

The Basics

Slab foundations are usually the easiest (and thus the least expensive) foundations to build. The slab is a flat concrete pad poured directly on the ground. This takes minimal site preparation, very little formwork for the concrete, and less labor to build than a pier and beam foundation. Slab foundations work well on level sites in warmer climates (like what we have here in north Texas and southern Oklahama). Slab foundations can be problematic farther north because when the ground freezes during winter, this freezing may shift the slab. This may damage the structure sitting on the foundation, plumbing running through and under the foundation, and the foundation itself.

How Slab Foundations are Constructed

In most cases, the perimeter of the slab is about 2 feet deep. The interior of the slab can be as little as 4 or 6 inches thick. Below the slab sit a 4 to 6 inch layer of gravel. To keep moisture from the ground rising through the gravel to the slab, a 4-millimeter sheet of plastic is placed. Reinforcing bar (rebar) is laid out in a grid framework (supported a few inches above the plastic sheet) and the concrete is then poured over everything.

This type of foundation is commonly called a floating slab since it "floats" on the soil. What holds the foundation in place is the deeper layer of concrete around the perimeter of the foundation.

In places with common and severe winter freeze, the concrete along the perimeter extends below the frost line.

The Advantages and Disadvantages of a Slab Foundation

Slab foundations offer the following advantages:

• Slab foundations usually take less time to construct.
• Slab foundations require less prep work of the site.
• Typically, slab foundations cost less, due to the two points above.
• Since there is no crawlspace under the home, there's no risk of animals getting underneath the structure.
• Since the slab sits on the ground, entries and exits to and from the structure are close the ground -- perhaps only a step or two. This is good news for those with disabilities or other restrictions that makes steps difficult to navigate.

On the other hand, there are a few drawbacks to slab foundations:

• Since the plumbing and gas lines (if applicable) run directly through the concrete slab, it's more expensive to fix these problems below the home. Also, shifts in the foundation can break pipes (fresh water, sewer lines, and gas).
• Once a foundation has failed, it can be more expensive to fix the foundation since piers have to be sunk below the home. (In contrast, a pier and beam already has piers, which may only need adjustment.)
• Slab foundations cannot be used in homes where a basement will be built.
• Slab foundations cannot be used in areas with significant or prolonged freezes. The seasonal upheaval and other shifts can destroy a slab foundation.
• Concrete slabs can crack. These cracks can range from minor annoyances to major problems.

Concrete slabs can be a good choice for your home or business, but it has to be done right from the get-go, and only for the right type of conditions. If you have quesitons, feel free to contact us or shoot us a question.

Pier & Beam versus Slab Foundation, Part 1

The two most common types of building foundations in north Texas and southern Oklahoma are pier & beam foundations and slab foundations (also known as "slab on grade" foundations). As a rule of thumb, most foundations for homes built during the 60's and before are pier and beam while those built later are slab foundations. So, why the change in foundation types, how exactly is each type of foundation constructed, and what are the pros and cons of each? We'll cover each question over the next several blog posts and, as always, you can ask us your questions about foundation construction, repair, and maintenance and we'll give you the answers.

Pier and Beam Foundations

Pier and beam foundations (sometimes called post and beam foundations) have a crawl space (typically at least 18 inches) between the home and the ground. The base of the building is uses a series of beams supported above the ground via piers. This type of foundation takes longer to construct than a slab foundation, but allows easier access to heating and plumbing utilities. (With a slab foundation, it may be necessary to break through the concrete slab foundation to service or repair plumbing and such.)

Since the piers separate the structure from the ground, the foundation is less susceptible (as compared to slab foundations) to damage from the ground shifting. When ground shifting occurs and the foundation needs adjusting, the piers are more easily adjusted than is a slab foundation.

The advantages of a pier and beam foundation are:

• Provides easy access to service plumbing, electrical and other issues under the house.
• In many cases, pier and beam foundation problems can be less expensive to fix than problems with slab foundations.
• Some remodeling projects and home additions are more easily accomplished with pier and beam homes than with slab foundations.
• Since the structure isn't resting directly on the ground and air is a natural insulator, the temperature within the structure may take less energy to maintain. That is, your home isn't sitting directly on the cold hard ground during the winter and, thus, your heating bills can be less.
• Many people feel that floors supported by a pier and beam foundation have a bit more give and are therefore more comfortable. This is not to say the floor rebounds like a trampoline as you walk across it, but there is a difference according to many homeowners.

The disadvantages of a pier and beam foundation include the following:

• Pier and beam foundations take longer to construct than slab foundations. This increases the cost of the home or other structure.
• Floors supported by pier and beam foundations may creak and move.
• Broken vent screens and insufficient other barriers may allow bugs and rodents to get under the structure.
• Pier and beam foundations have to be vented properly to reduce moisture. Sufficiently high moisture levels can lead to mold, rotting wood, musty smells.

In our next post, we'll discuss slab foundations.

Get more information by visiting www.AceFoundation.com.

Do Steel Piers Rust?

"Do steel piers rust?" That's not an uncommon question.

The short answer is "No."

Steel piers are galvanized, which prevents rust. When steel is galvanized, it is dipped in molten zinc, which forms a chemical bond to the steel. Galvanized steel products gain good protection against rust and failure when used above or below grade. You can tell when an item has been galvanized, due to its unique silver color.

Wikipedia has a pretty good, technical description of galvanization. You can read it here.

Get more information by visiting www.AceFoundation.com.

A Great Soaker Hose Tip

In our last post, we discussed soaker hoses and regulating the moisture around and under your foundation. This time around, we have a tip for a problem many people have when using soaker hoses.

What do you do if, by the time you've connected all your soaker hoses together, there's not enough pressure at the end of the last hose?

The first thing you need to do is understand why this occurs. The pressure is dropping at the end of the hose because there's too much hose for the amount of pressure provided at the water spigot. By the time the water reaches the farthest lengths of the hose, the pressure has dropped so much that the water isn't forced out the tiny perforations in the soaker hose.

The next thing to do is to see if there are additional water spigots you can use. Instead of stringing all your soaker hoses from one spigot, split your soaker hoses among two or more. If you're afraid of using all your spigots for just soaker hoses, you can purchase multi-headed spigots that attach to the spigot coming out of the wall. That way, you can hook up the soaker hose and still have a connection free for other uses when you're not using the soaker hose.

If you can't use additional spigots, you can alternate traditional hoses with soaker hoses. Since a traditional hose doesn't lose water from the tiny perforations like a soaker hose does, then it maintains a higher pressure through its length. With a combination of soaker hoses and regular garden hoses, you can reach the farther parts of your foundation and still maintain adequate pressure. You may have to run two sets of alternating hoses (call them Line A and Line B). Make sure when setting the two lines that where Line A's soaker hose(s) alternate with Line B's soaker hoses. When it comes time to use the soaker hoses (about once or twice a week, depending on soil conditions), connect Line A and run for 30 or more minutes, then disconnect and run Line B for 30 or more minutes. In this way, you'll water the entire perimeter of the foundation, yet each hose is only responsible for half the task.

Get more information by visiting www.AceFoundation.com.

Soaker Hoses, Revisited

With all the rain we had in September, you might think we're nuts to be talking about soaker hoses again, but there's a good reason.

Soaker hoses are one of the best tools in the homeowner's toolbox for regulating soil moisture. Now that we're approaching the end of summer, it's a good time to get outside and check your soaker hoses for proper placement and overall condition. Make sure the soaker hose is buried about three inches deep and about six inches from the edge of the foundation so that the soil is soaked evening.

Do not place the hose against the foundation. Water placed next to the foundation (say, provided by a soaker hose placed against the foundation) runs through the cracks and pools at the bottom of the grade beam. (The grade beam is the thick portion of the foundation that is under the exterior walls.) The accumulation of water at the base of a foundation over time can reduce the soil's capacity to bear a load. When the soil loses enough load bearing capacity, the foundation will sink and your house can be damaged!

While you're checking the soaker hoses' position, don't forget to check the condition of the hose. Soaker hoses are pretty simple things. If you find a leak, tape it using duct tape (or similar tape -- ask at your local hardware store for appropriate substitutes). If the soaker hose is cracked or leaking from one of the fixtures or connections, replace the hose. The few dollars you spend on a new hose is a whole lot let than you'll spend on foundation repair.

Do you have questions about soaker hoses and your foundation? Then ask us!  In fact, you can ask us anything about foundation construction, repair, and maintenance. We love questions, so ask away!

Get more information by visiting www.AceFoundation.com.