Month: August 2021

Decorative Concrete

Dawn Tatum Concrete , , , ,

Decorative concrete is a type of concrete altogether. But instead of the standard, gray, utilitarian look you might be so used to, decorative concrete can be infused with several distinctive looks and even styles to lend extra appeal to your next home renovation project. With concrete services at https://www.concretecontractorstampa.net/, you’ll be able to find the perfect look for your home. Here are some ideas on decorative concrete services you can consider when renovating with concrete:decorative concrete

An overlay is simply a surface applied to the topmost layer of an existing concrete flooring slab. Using decorative overlays can give you a new character to work with while still preserving durability and aesthetic appeal. One great type of decorative overlay to use is stamped concrete overlay. In the stamped concrete overlay, a raised decorative border is imprinted directly onto the top surface of your concrete slab. This provides an attractive border with an elegant and professional finish.

You might also want to consider adding a decorative concrete overlay to create interesting forms. One popular type of decorative concrete overlay is a poured form liner. A poured form liner consists of a thick layer of decorative concrete that’s poured directly over your concrete surface. To make a poured form liner, a solid form is poured first before the decorative concrete is poured. After the concrete is cured and set, you’ll have a beautiful decorative border that’s completely seamless from top to bottom.

Another decorative concrete option to consider is stamped concrete pavers. These stamped designs can provide for unique home improvements like arches, decorative frames, and door handles. For the best effect, however, a combination of stamped pavers and a concrete form liner is best. This way, you get a decorative effect that also has a practical purpose.

If you’re looking for ideas on how to improve the appearance of your swimming pool or patio, you might want to consider staining your swimming pool. One popular option is using decorative concrete staining for concrete surfaces. Using concrete staining as a pool repair or refinishing project helps your swimming pool eliminate any swirl marks and improves the overall color of your swimming area. Stained concrete resurfacing is a quick and easy home improvement project that’s also very durable. You can have a colored stain applied within hours of purchasing the concrete stain and be enjoying your improved swimming space within days.

If you’re interested in creating a unique focal point or simply enhancing the aesthetic qualities of your concrete floor or wall, another option is stamped concrete paint. Stamped concrete paint comes in a variety of decorative patterns and designs that allow you to use stamped images like lettering, portraits, and personal images. While this option isn’t necessarily cost-effective, it can add personality and charm to an otherwise plain swimming area. You can find stamped concrete paints at most home improvement stores or online. However, you should purchase quality stamped concrete paints from a reputable manufacturer to ensure beautiful results.

Whether you need to replace your concrete driveways or replace the entire surface of a concrete floor, you can easily do the job yourself without hiring a professional. The great thing about do-it-yourself home improvements is that you can do all the work yourself from the comfort of your own home, increasing your homeowners’ sense of pride and freedom. Another advantage of doing the majority of your DIY home improvements projects yourself is that you save money, which is one of the biggest advantages of doing any home improvement project no matter how big or small. By choosing to do the majority of your decorative concrete remodel or home improvement project yourself, you’ll be able to spend that extra money on other projects that are more important to you.

Remember that decorative concrete doesn’t have to be difficult or time-consuming. By spending just a little bit of time on-site, you can give your driveways, patios, or any other area of your home added personality and charm. After your decorative concrete has cured for the required amount of time, you’ll have the pleasure of seeing the beautiful results right away. Once you’ve gotten used to seeing your newly refinished flooring, you won’t want to be able to get around in your new driveways or walkways again!

Epoxy and Oil-Based Polish

Adrian McBride Concrete , , , ,

Polished Concrete Miami Pro is unique and visually appealing to decorate any commercial, industrial or residential space. A polished concrete floor is a flat, smooth, and consistent surface that will stand the test of time. Polished concrete is the result of multiple steps being taken in the refining process, which includes:polished concrete

First, the floor is excavated to expose the base material. Then the floor is troweled over the base material to create a buff surface and level. Then it is polished with fine abrasives to create a finished look almost identical to natural stone. This allows industries such as restaurants, retail stores, warehouses, industrial complexes, and even garages to have beautiful, uniform polished concrete floors that are durable, attractive, and long-lasting.

One of the unique qualities of polished concrete floors is their durability and what many call their stamped look. The grinding of imperfections creates this look during the tumbling process. When marks are present, they are usually polished out during the grinding process to create a nice reflective shine. In addition to the stamped or patterned finish, several other options are available, including bare spots, texture stains, stencils, and stencil blots.

There are many advantages to using polished concrete polishing techniques. The most notable is that because this flooring is virtually impenetrable for a given level of traffic, it is an excellent solution for industrial facilities. For example, with the use of a light sandblasting machine, concrete polishing can be performed on very smooth surfaces without creating much in the way of dust or streaks. This can be especially important in industrial settings because not only does the floor have to stand up to heavy machinery, but it must also withstand chemicals as well. The ability to remain clean and shiny during all of these uses makes polished concrete a logical choice for commercial facilities.

Another advantage of polished concrete is that it will not change color when exposed to UV rays from the sun. Light reflectivity in many types of polished concrete comes in the form of a very light sheen. Typically, the light sheen comes from imperfections in the floor’s formation, such as pinpricks or missing patterns. However, you may also experience a lighter shade of shine from the surface of the stone itself. If this happens, it will be a purely cosmetic effect and not one that will impact the operation of the facility.

Because polished concrete has the benefit of an unlimited lifetime guarantee against chipping and cracking, it is also a popular option for homeowners. Because of the long life of this flooring type, homeowners do not need to worry about the appearance of this floor until it is much older and cannot be repaired. In fact, epoxy coating the floors of your home can help you maintain the look of polished concrete floor for up to 40 years, more than any other surface can offer.

Most people choose polished concrete polishing for its epoxy coating, because this is the easiest type of coating to apply. Using a cement-based liquid acrylic compound, the professional can achieve beautiful sheens in just minutes. However, the process does take time and requires that a standard set of tools is used. However, once the flooring has been primed and the base concrete has been poured, a single application of acrylic may last up to three years, which is significantly longer than most other types of polishing.

When choosing polished concrete for your project, make sure you are dealing with a company that has been in business for over 30 years. A good concrete company should provide you with a wide range of styles to choose from so that no two installations are exactly alike. It’s also a good idea to find a company that works closely with architects and designers so you can achieve the high gloss finish that you desire without having to compromise the structural soundness of your flooring systems. For the best results, find a reputable company that offers services such as pneumatic pressure cleaning, sealants, and finish options. Of course, these additional services will increase the total cost of your installation, but in the long run, they’ll be well worth it. Once installed, your polished concrete will provide you with years of maintenance-free flooring, and a beautiful glossy finish that will make your home shine.

Concrete Abrasion Resistance: The Bad, the Good, and the Better (Interview Part 1)

Donna Pero Concrete
Concrete Abrasion Resistance: The Bad, the Good, and the Better (Interview Part 1)

When it comes to getting a durable concrete slab, a critical part of it involves keeping the concrete resistant to abrasion. Without that resistance, construction professionals will often encounter ruts, dips, potholes, or worse in the surface of their concrete. All of which can lead to safety hazards and operational inefficiencies.

Professionals usually try to counter this with conventional surface-applied concrete hardening solutions. But these aren’t reliably effective and come with a number of setbacks.

To look into why that is, we’ve decided to explore the bad, the good, and the better parts about concrete abrasion resistance. Helping us in this discovery are two of our Smart Concrete experts: Jeff Bowman, one of our technical directors, and John Andersen, our territory manager for Western Canada. To start, let’s dive into some of the negative aspects surrounding concrete abrasion resistance.

Thank you for joining us on the first part of this interview series. Let’s start by discussing what abrasion actually is and why it is an issue for concrete in the first place.

Jeff: Abrasion describes the steady loss of material from the concrete through some sort of mechanical action. It’s generally more of a surface phenomenon. So forces that are acting on the abrasion of concrete are usually going to be some sort of object that’s either rolling or sliding over the concrete. And this may also be combined with foreign particles trapped between those two phases that are also gouging and sliding through the concrete.

John: When we talk about the significance of that wear and tear on concrete, we typically think about just the cost of taking the building out of service and replacing the concrete. But there’s also a cost regarding safety. And it’s not just about the people tripping and falling and encountering all other hazards because of it. There’s also an issue of breathing in the concrete dust, the cost associated with keeping the facility and machinery clean, the cost to the equipment, and the reduced productivity due to the worn out concrete.

How exactly do construction professionals usually try to resolve this issue?

Jeff: Dry shake hardeners are quite a common product for this. I’m sure many people reading this now probably use or specify them.

But for anybody who’s not familiar with them, a dry shake hardener is some sort of blend of cement and possibly some other additives and an abrasion-resistant aggregate particle, such as aluminum oxide (also called emery). And these products get broadcast in a dry form overtop fresh concrete and then worked into the surface during the final finish.

Now, certainly, these products can work and can give you a good abrasion-resistant finish if they’re installed well. The challenge that the industry has is they’re very difficult to install.

Dry shake hardeners are applied in two portions, and there’s some work that needs to be done in-between. And one of the significant challenges of this application is that it all takes place in a very time-critical period. All the steps are time-critical, and it can be very easy to miss that perfect window of opportunity.

There are just so many variables that could be happening with the concrete and with the weather. And if workers start to have trouble with it, sometimes they just can’t get a full specified amount of the dry shake applied to the concrete.

John: That’s exactly the challenge that the contractor Graham Construction faced when they were building a new pea protein plant in Manitoba. This is a massive facility with large slab pours, and they were trying to get that shake-on hardener down in that little window of opportunity. And they lost the first slab.

They eventually changed to Hard-Cem to get away from the challenge of that little window of opportunity for properly applying the shake-on.

re there other challenges that come with using dry shake hardeners?

Jeff: Another challenge that we see is that this work normally comes up fairly late in the day when workers have been at it for many hours and they’re just getting fatigued. This is a lot to put on them at the end of the day.

Another challenge that we see is that the dry shakes are very sensitive to bleed water. If there’s too much bleed water coming out when you apply the dry shake and you work that water back in, the surface will become weaker and is likely to delaminate. If you have a low-bleeding concrete, perhaps something with a lot of fly ash, there’s just not enough water there to really work it in properly. The concrete sets up too quickly.

There can also be challenges with wind. And of course, it’s very important not to use dry shakes with air-entrained concrete because the power troweling needed to really work them in properly leaves a high risk of delaminating the concrete surface. So there are many challenges to dry shake products that people might face.

There are also some products that professionals apply post-construction, right? What about those?

John: Yes, I think if you’re in Western Canada, where I live, many of these products use silicate as the base for their formulas.

Jeff: Right. When we’re describing liquid hardeners (which are sometimes called liquid densifiers), these are all some sort of silicate-based product. They work by penetrating into the concrete and reacting with the calcium hydroxide there, which is a by-product of cement hydration. That reaction turns into what is called calcium silicate hydrate gel, which is the normal hydration product of cement. It’s what gives the cement paste its strength and what gives concrete its properties. So this reaction pathway is really quite similar to the reactions you get from fly ash or slag or other supplementary cementitious materials.

That introduces some challenges in and of itself. Some suppliers of these products recommend limiting the amount of fly ash or slag you’re using in your concrete. That’s not always possible or desirable for many other reasons. Or they may recommend delaying the application for at least 28 days to allow the concrete to come up to its specified strength first so that the silicate is not competing with the other cementing materials.

Does their application work effectively?

Jeff: While they are often used or specified specifically to increase the abrasion resistance of the concrete as placed, that’s not really what they’re intended to do.

They function by slightly increasing the amount of cement paste on the surface. But cement paste is the weakest and most vulnerable phase to abrasion. Having a little bit more doesn’t significantly move the dial on the abrasion resistance of that concrete.

Now, liquid hardeners do serve an important purpose. If a contractor does have a slab that has had some challenges when they’re placing it, the surface might be poorly hydrated or weak or might have dried out too early. These products can help strengthen that surface as a remediation measure.

But they’re not really an appropriate material to specify as an abrasion-resistant material for concrete that’s been otherwise properly placed and finished.

re there other solutions that have been used to increase concrete abrasion resistance?

Jeff: Another common solution is high-strength concrete.

And why not just use stronger concrete? You get better abrasion resistance. And normally, this approach would be just using a mix that has more cement. You could use more fly ash or slag or maybe silica fume to really get that strength up and keep that water-cement ratio down real low. The concrete gets stronger, and the abrasion resistance is better. And this generally does work.

But there are some limitations.

Now, the research shows that when you double the compressive strength of concrete, you can roughly double the concrete’s abrasion resistance. And there is research and literature on this.

But there can also be some consequences. Any time you are using a stronger mix, especially with anything that has more cement paste, you’re getting more hydration. That generates more heat in your concrete. More paste means more shrinkage. More shrinkage normally means more cracking. And if you’re pouring a slab, you also now get more curling, so your floors just don’t stay as flat. And curling can result in a lot of damage and wear at the joints.

All of these things are actually really bad. They target some of the core properties that a facility owner expects of their floor. An owner wants more than just good abrasion resistance. They want their floor to perform in many other ways.

And as an added bonus, using high-paste strong mixes comes with a cost premium. Because you are using so much more cement in the concrete, the carbon footprint of that concrete can go up quite significantly.

So most popular concrete abrasion-increasing efforts don’t seem to work as well as expected. Is there a better way to get that abrasion resistance?

John: Adding Hard-Cem into concrete at the batch plant! Hard-Cem lives in that concrete paste, and that’s how it works. It increases the resistance to abrasion and erosion that way. It’s easy to apply. There are no negative effects on your plastic or your hardened concrete. It’s fully compatible and used often with air-entrained concrete, so no longer do you have to specify products like this just for indoor use. You can now use it outdoors. And it can be used in horizontal and vertical slabs, behind formwork, in precast, and in shotcrete. There’s a huge opportunity for this product to be used often in mining applications as well.

And Jeff very clearly articulated the difficulty in applying the shake-on hardeners. So no longer do the jobsites have to take all this into consideration. Basically, they can just order Hard-Cem when they order their concrete. And there’s no harmful dust exposure.

Hard-Cem’s been used for 18 years now for over 7 million m2 (80 million ft2) in all kinds of applications. And many of the top-producing concrete companies have branded their own durability concrete using the Hard-Cem admixture.

Once concrete finishers get to use this, they start to ask for it by name because it just makes their job that much easier.

It sounds like Hard-Cem could be a much more effective solution. But how well does it perform? We’ll look into that in more detail in Part 2 of this interview series.

Click here to learn how to enhance concrete durability for superior abrasion resistance.

The post Concrete Abrasion Resistance: The Bad, the Good, and the Better (Interview Part 1) appeared first on Kryton.