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Case Study - Sealing Hairline Cracks in a Fire Protection Storage Tank

Posted by Charlie "The Grout Geek" Lerman on Aug 31, 2023 10:00:00 AM

Banner - Sealing Hairline Cracks in a Fire Protection Storage Tank

Body - Sealing Hairline Cracks in a Fire Protection Storage TankA general contractor working on new luxury apartment construction in Queens, NY reached out to a local leak seal specialist after discovering hairline cracks in the base joint of a fire protection storage tank. (A fire protection storage tank stores water for use in fire suppression systems.)

Powerful Polymer

Cracks in concrete come in all widths and sizes. Some of the most difficult ones to inject are the hairline cracks. The thinnest flexible polyurethane grouts on the market are between 100cps - 200cps which makes it difficult if not impossible to get them to penetrate a hairline crack. Spetec AG200 is an acrylic-based grout and it is 18cps, or about 5-10 times thinner than the thinnest flexible polyurethane. Clearly, a thinner grout will penetrate cracks much more effectively. Spetec AG200 is almost as thin as water, but when it polymerizes it forms a flexible hydrophilic gel. This gel features 500% elongation, which may sound like overkill to some, but 500% movement in a hairline crack is not much. The ultra-low viscosity and field adjustable set time make Spetec AG200 ideal for thin and hairline cracks.

Painless Procedure

The crew followed the standard crack injection procedure:

  1. Identify crack locations.
  2. Estimate the amount of material needed.
  3. Prepare the surface of the crack.
  4. Drill injection holes at a 45-degree angle.
  5. Flush out injection holes with water to remove any debris.
  6. Insert injection ports on both sides of the crack.
  7. Inject water into each port.
  8. Start injection of material.
  9. Always grout twice.
  10. Add water again.

Spetec AG200 was successfully injected into cracks and the base joint of the firefighting water reserve tank.

Rapid Result

The defects in the tank were easily penetrated by Spetec AG200 and the job was a success. This allowed the general contractor to get back on schedule with the building construction.

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Topics: All Posts, Crack Injection

5 Steps of Crack Injection - Sealing Leaks in Concrete

Posted by Stephen C. Barton on Aug 29, 2023 10:00:00 AM

Banner - 5 Steps of Crack Injection - Overview

Body - 5 Steps of Crack Injection - OverviewThere are five basic steps to be done when placing a crack injection. This is crack injection 101. Learn these steps and you will be well on your way to understanding what it takes to seal a water leak in concrete with products such as Spetec PUR F400 and Spetec GT500. In future articles, we will explore every one of these steps in more detail and address the multitude of options (such as port selection, hole spacing, depth, what to do when you hit rebar, etc.) But for right now, we are going to discuss the most basic steps.

Step 1: Drill holes. Use a hammer drill to drill holes in the concrete that intersects the crack. These holes are usually drilled at a 45-degree angle to intersect the crack halfway through the structure so that the resin is forced toward the front and back of the crack.

Step 2: Flush the holes. When you drill, you create concrete dust. If you don’t flush this dust out of the holes, it will be forced into the crack during injection and may clog the crack, preventing the resin from getting where it needs to go. Put a flexible hose all the way to the back of the hole so that water flushes the dust from the back of the hole to the surface of the concrete. Flush until clean water is flowing.

Step 3: Install your injection port. The port is what seals the hole and gives the injection pump a direct connection to the crack.

Step 4: Flush the crack. Unless the water is pouring out of the crack, you will need to inject clean water through the injection port and into the crack. This serves several purposes:

  • Cleans the crack of dirt and other contaminants to allow the resin to flow freely.
  • Gives you an idea of how far and how easily the resin will flow into the crack when you start injecting the foam.
  • Helps to open areas where the resin wouldn’t otherwise flow. Water is thinner than resin and will penetrate deeper and into tighter areas.
  • Ensures the resin will have enough moisture to react with.

Step 5: Inject the resin. Always use the lowest pressure that will continuously feed resin into the crack. Slowly turn up the pressure as necessary to get the resin flowing. My rule of thumb is to keep injecting even if resin starts to flow out of the crack. As long as more resin is going in than is coming out, you are improving your chances of success. When the resin isn’t moving further along the crack, move to the next port.

Sounds simple, right? Well, it is and it isn’t, as we will discover in the next several chapters of this blog series...

5 Steps of Crack Injection - Overview
5 Steps of Crack Injection - 1. Drilling Holes
5 Steps of Crack Injection – 1. Drilling Holes (Continued)
5 Steps of Crack Injection – 2. Flushing Holes
5 Steps of Crack Injection – 3. Installing Ports
5 Steps of Crack Injection – 4. Flushing Cracks
5 Steps of Crack Injection – 5. Injecting Resin

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Topics: All Posts, Seal Leaks, Crack Injection

Hydrophobic Polyurethanes vs Hydrophilic Polyurethanes

Posted by Charlie "The Grout Geek" Lerman on Aug 24, 2023 10:00:00 AM

Banner - Hydrophobic vs Hydrophilic Polyurethanes

The terms hydrophobic and hydrophilic may not mean anything to the average person. But, to a contractor, these terms can mean a world of difference. Hydro means water while phobic means “to fear” and philic means “to love”. Alchatek offers both hydrophobic and hydrophilic polyurethanes, so it is important to be aware of the differences between the two types.  

Hydrophobic Polyurethanes

Body - Hydrophobic vs Hydrophilic PolyurethanesHydrophobic polyurethanes naturally repel water (similar to the way oil would repel water and stay separate if you were trying to mix them in a glass). These products push water out of the area in question as they expand. Hydrophobics are used with catalysts which allow you to adjust the set time. They also have zero shrinkage after curing.

Check out these hydrophobic polyurethanes:

Hydrophilic Polyurethanes

Hydrophilic polyurethanes naturally mix with water before curing (similar to the way gin and tonic mix thoroughly in a glass). This characteristic allows for a very strong chemical and mechanical bond, as water helps pull the material into the pores of the concrete. These products do not require a catalyst. You can pump them straight out of the pail.

Check out these hydrophilic polyurethanes:

Don't Oversimplify These Concepts

Don't get caught in the trap of oversimplifying hydrophilic vs. hydrophobic.  There are varying degrees of each (see chart below for more information on how this is measured).  

Hydrophilic vs Hydrophobic.png

Some hydrophilic materials will keep absorbing water (10-15 times their original volume).  Others (such as Spetec PUR GT500) only absorb as much water as is necessary for their reaction and then they reject the rest.  Yes, hydrophilic gels will shrink like crazy in the absence of water, but Spetec PUR GT500 won't.  It is completely safe to use in a dry environment.

Want more information on Alchatek products?

Download the Info-Packed Geotech Product Catalog!

Download the Info-Packed Leak Seal Product Catalog!

Topics: All Posts, Lift Slabs, Seal Leaks, Stabilize Soil

Case Study - Abandoned Pipe Grouting at Carrington Woods Lake Dam

Posted by Colt Hullander on Aug 22, 2023 10:00:00 AM

Banner - Abandoned Pipe Grouting at Carrington Woods Lake Dam

Body - Abandoned Pipe Grouting Carrington Woods Lake DamCarrington Woods Lake Dam is located in Baldwin County, Georgia. A consulting firm collaborating with a general contractor called in geotech specialists Atlas Structural to stabilize an abandoned below-grade culvert pipe that had deteriorated over time. The pipe ran underneath a spillway. With supporting soil migrating into it, its unstable condition threatened the integrity of the structure.

Powerful Polymer

The technicians chose single-component AP FIll 720 for the job. The deteriorating pipe was 100 feet long, and due to the circumstances at the site, grouting could only be done from one end. Getting a two-component foam 100 feet up a pipe before it cured would have been impossible. AP Fill 720, featuring a very flexible set time adjustment range with the catalyst, allows technicians to pump the material for great distances before it starts to react and cure.

AP Fill 720

Painless Procedure

AP Fill 720 does not have to be heated and only needs moisture for reaction. The crew had two electric injection pumps, one pumping AP Fill 720 with an accelerator and the other pumping water. They had 150-foot lines on each pump. Both pump lines were run through a 100-foot PVC tube. The technicians used a video camera, mounted five feet back from the end of the PVC tube, to monitor the fill. The crew pumped both water and poly in unison for a good reaction. As the pipe filled up, they slowly withdrew the PVC and continued pumping until the pipe was full. The process basically consisted of pumping, extracting the tube a foot, and repeating - until the entire 18" x 100' pipe was filled.

Rapid Result

The deteriorated pipe was completely filled and stabilized. Soil migration was stopped and the threat to the structure of the spillway above was eliminated. This job was completed in only three hours. Complete removal or filling with concrete would have taken days. In addition, concrete does not expand, so a 100% fill would have been impossible. AP Fill 720 expanded to fill 100% of the pipe. The consulting engineer and general contractor were very happy with this result.

Want more information on geotech products and equipment?

Download the Info-Packed Geotech Product Catalog!

Topics: All Posts, Fill Voids

The Causes of Unstable Soil - Decomposition

Posted by Andy Powell on Aug 17, 2023 10:00:00 AM

Banner - Causes of Unstable Soil - Decomposition

Body - Causes of Unstable Soil - DecompositionWhen the residue of plants or animals is converted into soil, the process is known as decomposition. Bacteria, fungi, and worms break down this residue, taking nutrients from them and leaving the remaining portion. Organic molecules are broken down into simpler inorganic molecules. This biological process changes the makeup of the soil and can therefore lead to soil instability.

What are the causes of decomposition?

When soil has a high concentration of organic materials, the soil will naturally begin to decompose. Throughout this process of decomposition, the mass and form of these organic materials will change. Up to 90 percent of organic material will actually disappear over the course of the decomposition process, which means the mass of the soil will decrease substantially, reducing the quantity of available soil. The causes of decomposition can be broken into two main groups: manmade and natural. Trash pits or buried construction debris can cause manmade decomposition, while tree stumps and peat content can cause natural decomposition. 

What are the signs of decomposition?

Sinkholes, unstable soil, and low spots are all indications of soil decomposition. When soil begins to decompose and shift, it can compromise the integrity of buildings, foundations, and other manmade structures. 

How can decomposition be addressed?

In some cases, it is possible to dig up the cause of decomposition. For example, it might be possible to extricate a trash pit or old construction debris from the soil. However, in other cases, this simply isn’t feasible. You can’t easily extricate a trash pit after you have already built on top of it. If removal isn’t an option, the best solution is to envelop the area with polyurethane soil stabilization material. This process is known as encapsulation, and it essentially works to compact the area and reduce the amount of oxygen and water that can get to it, thereby helping to slow decomposition.

Want in-depth info on soil stabilization procedures and products?

Download an Info-Packed Soil Stabilization Brochure!

Topics: All Posts, Stabilize Soil

The Causes of Unstable Soil - Freezing and Thawing

Posted by Andy Powell on Aug 15, 2023 10:00:00 AM

Banner - Causes of Unstable Soil - Freezing and Thawing

Body - Causes of Unstable Soil - Freezing and ThawingWhat is freezing and thawing?

As the name suggests, a freezing and thawing cycle refers to a natural phenomenon in which soil freezes in cold weather and then thaws out again once the temperature warms up. Freezing and thawing in northern climates is good news for farmers, as it helps to loosen up the soil and reduce compaction, which makes it easier for crop roots to grow. However, for construction engineers and contractors, this process can prove to be incredibly problematic, especially if they are building on fine-grained soils with silt or clay factions, which are more prone to freezing and thawing.

What are the problems associated with freezing and thawing?

Essentially, freezing and thawing cycles accelerate soil instability. Soil with pores containing small particles of frozen water is known as permafrost. Building on permafrost is fine, as long as the soil stays frozen, but things become problematic once the permafrost begins to thaw. Freezing and thawing of permafrost cause soil to become soft and less compact. Subsequently, this causes structures, such as roadways, railways, foundations, and pipeline supports, to sink. Obviously, this can cause major headaches.

How can the problem of freezing and thawing be mitigated?

Alchatek soil stabilization products can be used to compact the ground and displace water particles in the soil pores. Depending on the soil type, this could prevent frost heave, resulting in a stronger, more consistent base to build on.

Want in-depth info on soil stabilization procedures and products?

Download an Info-Packed Soil Stabilization Brochure!

Topics: All Posts, Stabilize Soil

The Causes of Unstable Soil - Poor Compaction

Posted by Andy Powell on Aug 10, 2023 10:00:00 AM

Banner - Causes of Unstable Soil - Poor Compaction

Body - Causes of Unstable Soil - Poor CompactionMany types of infrastructure, including roads, bridges, and buildings, depend on compacted soil in order to stay in place. Therefore, in order for these structures to last, a specific degree of compaction must be achieved. When soil does not adequately compact, the problem is known as poor compaction, and that can lead to more serious issues. Concrete repair contractors always need to be on the lookout for signs of poor compaction which include settling slabs, cracking foundations, and dips in roadways and railroads.

What causes poor soil compaction?

There are a variety of causes of poor soil compaction. However, much of it boils down to soil texture and soil properties. Some soils are more prone to compaction than others. Excess soil salt content, high clay fraction soils, low pH soils, and soils with high water content tend to compact less favorably. It should also be noted that decisions made by construction contractors and their teams can also influence soil compaction. For example, failure to select proper compaction equipment or compaction materials can contribute to poor compaction. Furthermore, some areas are more prone to poor compaction than others, such as portions of soil set against a foundation.

How can poor soil compaction be corrected?

Luckily, poor compaction can be corrected. The solution is to strengthen the soil until it is properly compacted. As mentioned in the previous post, voids can be filled, soil consolidated, and water migration halted with Alchatek soil stabilization products. Once the bearing capacity of the soil has been increased with this process, then the structure can be lifted if necessary.

Want in-depth info on soil stabilization procedures and products?

Download an Info-Packed Soil Stabilization Brochure!

Topics: All Posts, Stabilize Soil

The Causes of Unstable Soil - Erosion

Posted by Andy Powell on Aug 8, 2023 10:00:00 AM

Banner - Causes of Unstable Soil - Erosion

Body - Causes of Unstable Soil - ErosionWhat is erosion?

In geological terms, erosion can be defined as an exogenic process that moves a portion of the earth’s crust from one location to another. This includes a range of different processes, including water flow, wind, and even human action, that move dirt, soil, rock, etc. They are called exogenic processes because they originate outside of the earth’s crust, or externally. In more practical terms, erosion can best be described as the way in which the earth is worn away by water, wind, or ice. So when a river carves a canyon out of stone (such as when the Colorado River carved out the Grand Canyon in Arizona over the course of so many years), that is an example of erosion. The formation of sand dunes by the wind moving across the desert is also an example of erosion, as are changes in rocks along a shoreline due to the constant thrashing of waves. 

Why does erosion cause unstable soil?

You’ve probably heard that erosion is dangerous because it causes unstable soil. It is important to remember that the consequences of erosion can potentially be dramatic, causing landslides and structural damage. After investing money in the construction of a building, the last thing you want is for unstable soil to put the whole project at risk. 

How can erosion be repaired?

Voids can be filled, soil consolidated, and water migration halted with Alchatek soil stabilization products. Once the bearing capacity of the soil has been increased with this process, then the structure can be lifted if necessary.

Want in-depth info on soil stabilization procedures and products?

Download an Info-Packed Soil Stabilization Brochure!

Topics: All Posts, Stabilize Soil

The Causes of Unstable Soil - A Brief Overview

Posted by Andy Powell on Aug 3, 2023 10:00:00 AM

Banner - Causes of Unstable Soil - A Brief Overview

Body - Causes of Unstable Soil - A Brief OverviewUnstable soil can be defined as soil that will not stay in place on its own and therefore requires extra support. It should be noted that unstable soil can threaten the stability, security, and safety of infrastructure and can damage, degrade, and even destroy a number of structures, such as buildings, bridges, and roads.

Let's look at the four main causes of unstable soil...

Erosion

Erosion refers to processes in which external elements (wind, water, etc.) remove soil or rock from a certain location and transport it to another location. There are a variety of different erosion types, including river and gull erosion, wind erosion, and erosion attributed to human activity. Erosion ultimately destabilizes soil and can lead to landslides and sinkholes.

Poor Compaction

One of the most common causes of unstable soil is poor compaction. In some cases, certain types of soil are simply very loose and subsequently not compact. The cause of this is typically an imbalance of mineral pieces, organic matter, air, and water. For example, clay soil with very high moisture content will inevitably become unstable, as it will be incredibly difficult to compact. Similarly, soils with high sand content will be difficult to compact.

Freeze/Thaw

Processes of freezing and thawing essentially accelerate erosion processes. Cold weather freezes moisture trapped in tiny cracks. When this water freezes, it expands, subsequently pushing on the rocks and breaking them into smaller pieces. As processes of freezing and thawing continue, rock and sediment are continually broken down.

Decomposition

When soils contain a high concentration of organic materials, such as topsoil and plant matter, they will decompose, subsequently causing them to become unstable. This is because organic materials rapidly change form and mass as they decompose in the soil. In fact, up to 90 percent of organic material will disappear over the course of the decomposition process.

Fortunately, stability can be restored to soil with ultra-low viscosity polyurethane resins. Foaming and permeation polyurethanes can mitigate the damage done by processes of erosion, decomposition, freezing, and thawing, as well as help to rectify compaction problems. When it comes to unstable soil, you can’t afford to take a risk. Stable soil is crucial to maintaining secure structures.

Want in-depth info on soil stabilization procedures and products?

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Topics: All Posts, Stabilize Soil

Concrete Leveling with Polyurethane Foam - How Strong is Strong Enough?

Posted by Andy Powell on Aug 1, 2023 10:00:00 AM

Banner - Concrete Leveling with Polyurethane Foam - How Strong is Strong Enough

Body - Concrete Leveling with Polyurethane Foam - How Strong is Strong EnoughRaising Concrete with Confidence

When pumping a lightweight material beneath a slab, you need the confidence that it is strong enough for the application. How strong is strong enough? This is a commonly asked question by contractors that are new to slab jacking with polyurethane. Alchemy-Spetec structural foams only need to be as strong as dirt, but they're actually stronger than crystalline bedrock.

The Right Strengths for Concrete Lifting

Slab lifting foams are rated on density (weight per cubic feet) and compressive strength. This testing and rating are based on the foam in a free-rise state; the parts A and B are mixed together and allowed to expand freely. Our AP Lift 430 and AP Lift 475 structural lifting foams, for example, weigh 2.75 – 3.25 lbs (AP Lift 430) to 4.75 – 5 lbs (AP Lift 475) per cubic foot. But they have compressive strengths of 50 psi and 100 psi in a free-rise state. That's the equivalent of 7,200 to 14,000 lbs per square ft of support, just in a free-rise state.

Polyurethane Slab Jacking Compared to Clay and Bedrock

To put that into perspective, the National Home Builders Association and the International Building Code list stiff clay at 4,000 psf and crystalline bedrock as having 12,000 psf of load-bearing capacity. Consider the job site conditions where the foam will be injected into a confined area. Testing data in the lab shows that our lifting foams will increase in compressive strength: In a space confined 25% by volume there will be an increase of 31% in psi and in a space confined by 75% there will be a 79% increase in the psi.

Concrete Leveling for Any Job with the Right Foam

Today polyurethane concrete lifting foams are used to level airport slabs supporting jumbo jets, equipment and building slabs supporting tremendous loads, and even railway sleepers that support the heaviest freight trains. So don't let the word “foam” fool you. These resins cure to strengths beyond what is needed to support any structure.

Want in-depth info on slab lifting procedures and products?

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Topics: All Posts, Lift Slabs