Industrial and manufacturing environments face unique challenges when it comes to flooring. These facilities are subject to extreme wear and tear, heavy loads, chemical spills, high-traffic conditions and temperature fluctuations. Whether you’re dealing with machinery, forklifts, heavy components or hazardous materials, it’s important to select a heavy-duty flooring system that meets these demands.
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Heavy-duty flooring is engineered to withstand the harsh conditions often present in industrial and manufacturing environments. These floors must be robust enough to deal with constant traffic, heavy machinery, hazardous chemicals, extreme temperatures and heavy impacts—all of which can degrade ordinary flooring materials.
A floor is considered “heavy-duty” when it has the following essential attributes.
Durability is one of the most important characteristics of heavy-duty flooring. In industrial and manufacturing spaces, floors must resist abrasion and wear and tear caused by equipment, vehicles and frequent foot traffic. The flooring must also maintain its appearance and functionality over a long lifespan.
Floors that are not durable can break down quickly, leading to costly repairs and downtime.
Manufacturing facilities often deal with heavy machinery, tools and materials that are frequently dropped or moved across the floor. A heavy-duty floor must be able to resist these impacts without cracking, chipping, or failing.
Floors that cannot handle high-impact forces can create significant safety hazards, which often leads to expensive repairs and even more expensive downtime.
Many industrial environments use chemicals, oils, acids, solvents and other substances that can damage standard flooring systems. Heavy-duty floors must be resistant to a wide range of chemicals, ensuring they do not degrade or discolour upon exposure to these materials.
For example, floors in automotive or aerospace manufacturing facilities may need to resist fuels and lubricants, while those in food processing plants need to withstand a variety of products being spilled on the floor as well as aggressive cleaning chemicals.
Certain industries, such as metalworking, glass manufacturing or food and beverage, may expose floors to extreme temperature changes. For example, some processes in heavy manufacturing may involve high temperatures that can soften or damage epoxy resin flooring. Similarly, some facilities may need floors that can withstand freezing temperatures.
A heavy-duty floor must remain stable under high or low temperatures without cracking, becoming brittle or debonding.
Slip and trip hazards are among the most common causes of workplace injuries in industrial settings. Areas where liquids, oils or dust are present need to have floors that offer adequate slip resistance. Heavy-duty flooring can be tailored with various textures or aggregates, like quartz sand, aluminium oxide or bauxite, to increase traction and reduce the risk of slips and falls.
In many industrial and manufacturing facilities, floors are often subjected to the weight of machinery, materials and vehicles like forklifts, cranes, and trolleys. A heavy-duty floor must have a high compressive strength to support these heavy loads without sinking or cracking.
Failing to properly design floors for such loads can lead to early damage, wearing smooth and significantly higher maintenance costs.
The importance of heavy-duty flooring in industrial and manufacturing environments cannot be overstated. These floors are more than just a functional part of the facility—they are integral to the safety, efficiency and longevity of operations.
Here are several reasons why investing in high-quality heavy-duty flooring is essential for industrial and manufacturing facilities.
One of the most critical factors in any industrial setting is the safety of workers. Floors in these environments can become hazardous when they are not durable or adequately designed for the specific conditions they will face. Cracked or damaged flooring can cause tripping hazards, and surfaces that are too smooth can become slippery when exposed to oils, water or chemicals.
Slip resistant flooring is especially important in areas where workers regularly deal with water, oils or other slippery substances. For instance, the floors in a food manufacturing facility are prone to spills, while in an automotive plant, oils and lubricants are often present.
Heavy-duty floors, designed with increased friction or textured finishes, can significantly reduce the risk of slip and fall accidents, ensuring a safer working environment.
When flooring systems are resilient and properly maintained, they lead to more efficient operations.
In facilities that operate 24/7, any downtime due to flooring damage can lead to delays and loss of productivity. A durable floor system will support the flow of goods and personnel, minimising disruptions due to cracks, potholes or wear.
Moreover, floors that are easy to clean and maintain—thanks to smooth, non-porous finishes—help to reduce the time spent on maintenance, allowing more time for production. For example, epoxy and polyurethane floors are easier to clean than porous concrete, which can trap dirt and oil, making cleaning more difficult.
Industrial and manufacturing flooring is constantly subjected to wear and tear from impacts, chemical spills, extreme temperatures and heavy traffic. Heavy-duty flooring systems are designed to withstand these stresses, reducing the frequency of repairs and replacements.
Investing in durable flooring systems from the start can help avoid the high costs of frequent maintenance and the potential downtime associated with damaged floors. For example, epoxy coatings may initially seem more affordable than polyurethane cement floors, but over time, the latter may offer better protection in environments with frequent heavy impacts because they reduce the long-term cost of repair or replacement.
First impressions matter, and floors are often one of the first things visitors or clients notice when entering a manufacturing or industrial facility. A clean, well-maintained floor not only ensures a professional appearance but also reflects the quality and safety standards of the operation.
High-gloss epoxy finishes, for example, can create a bright, polished look, while also improving visibility and reducing dust accumulation. In contrast, some manufacturing spaces might require a matte finish to prevent reflections and distractions, such as in areas where precision work is carried out.
Different industries have different needs when it comes to flooring. The automotive industry requires floors that can withstand heavy impacts and chemical exposure from oils and lubricants. The aerospace industry, on the other hand, may need floors that can tolerate aviation fuel and resist abrasive wear caused by the movement of large, heavy machinery and parts.
Choosing the right flooring solution tailored to your industry can help avoid costly mistakes, ensuring the floor meets the exact specifications of your operational environment. This adaptation is especially important in high-precision industries, where maintaining cleanliness, reducing risks and ensuring consistency are critical.
There are several types of heavy-duty flooring systems available, each offering distinct advantages depending on the specific needs of your facility. By understanding the unique properties of each flooring system, industrial and manufacturing facilities can select the most appropriate option to meet their operational needs and ensure long-term durability.
Let’s explore the most common types of heavy-duty flooring used in industrial and manufacturing spaces.
Epoxy flooring is a popular choice for industrial and manufacturing environments due to its exceptional hardness and durability. This type of flooring forms a seamless, high performance surface capable of withstanding heavy traffic, mechanical wear, and exposure to various chemicals. It is also easy to clean and maintain, making it ideal for facilities where hygiene is critical.
However, epoxy flooring can be brittle under heavy impact or extreme temperature fluctuations, and its temperature sensitivity may limit its use in high-heat environments.
Polyurethane flooring stands out for its flexibility and impact resistance. Compared to epoxy, polyurethane is better suited for areas where substrates may move such as mezzanines due to vibrating equipment. Its resilience makes it a reliable choice for manufacturing settings with challenging floors that require movement capability combined with durability.
While polyurethane systems may require a higher initial investment and more frequent maintenance in high-traffic areas, their long-term performance and adaptability often outweigh these considerations in challenging areas such as mezzanines where movement capability is a priority.
Polyurethane cement flooring combines the toughness of cement with the durability of polyurethane, making it highly resistant to impacts, chemicals and extreme temperatures. This flooring is particularly advantageous in facilities that face constant wear and tear as well as exposure to harsh chemicals or thermal shock Polyurethane cement systems are also often used in live food manufacturing facilities as they are non-taint.
Polyurethane cement floors can be smooth, light or aggressively textured to match the requirements of almost any manufacturing facility. They are industrial floors with great technical performance, but other types can offer improved aesthetics.
Polyaspartic flooring is a modern option known for its glossy finish, rapid curing times and superior resistance to UV light, which makes it suitable for both indoor and outdoor industrial spaces. Its ability to resist yellowing or degradation under sunlight ensures longevity in environments with natural light exposure. Additionally, polyaspartic flooring offers excellent abrasion and chemical resistance.
However, polyaspartic coatings can be costly compared to traditional systems and may require periodic maintenance to preserve their appearance.
Methyl methacrylate flooring is a high performance solution designed for extreme industrial conditions. With its rapid curing properties even at very low temperatures, MMA flooring is ideal for facilities with tight installation schedules or those needing minimal downtime. It performs well in environments with frequent temperature fluctuations and high-impact activities.
Note that the strong odour of MMA flooring during installation requires adequate ventilation, and its cost may be higher than other flooring systems.
Concrete flooring, when combined with a high-quality sealant, is a classic and highly durable option for industrial facilities. It offers high strength, making it capable of supporting heavy machinery and intense foot traffic.
Adding a sealant enhances its resistance to stains, chemicals, and moisture, increasing its longevity. Keep in mind, though, that bare concrete is not highly chemical resistant, can be prone to cracking under impact and will require resealing regularly to maintain its appearance. It is not well suited to areas that are wet on a regular basis as it can be slippery.
When selecting the ideal flooring system for your industrial or manufacturing facility, there are several factors to keep in mind. The right choice will depend on your specific operational needs, budget and long-term goals.
Start with these key considerations.
Think about the amount of foot and vehicle traffic your floor will endure. For high-traffic areas or places where heavy machinery moves regularly, you’ll need a floor that can handle significant wear. Polyurethane cement, polyurethan and epoxy screed systems, for example, are well-suited for high-impact environments.
If your facility deals with hazardous chemicals or corrosive substances, select a flooring system with high chemical resistance. Epoxy and polyurethane systems can resist a wide variety of chemicals, but for more specialised needs, consider using systems like polyurethane cement and specialised polyurethane topcoats that offer advanced chemical and abrasion resistance.
If your operations involve extreme temperatures, look for flooring systems that can withstand both heat and cold. Polyurethane-based systems generally offer better temperature resistance than epoxy, but polyurethane cement systems can withstand the highest and lowest temperatures.
Ensure that your floor meets safety standards for slip resistance, especially in areas prone to liquid spills or exposure to chemicals. Customizable slip-resistant finishes can be applied to ensure that your floor remains safe and practical for everyday use.
If you need minimal downtime for your facility, consider using a fast-curing system like polyaspartic or MMA flooring. These can be installed and ready for use within a few hours, helping you get your operation back on track as soon as possible.
In certain areas of your facility, aesthetics may play an important role. Consider the finish of your floor—whether you want a high-gloss look for better visibility and a clean, bright environment or a matte finish for areas requiring reduced glare.
As businesses increasingly focus on reducing their environmental footprint, the sustainability of flooring systems is becoming a crucial factor. Many heavy-duty flooring solutions now feature low-VOC (volatile organic compound) and low emission formulations, improving indoor air quality.
Additionally, choosing long-lasting floors that do not require frequent replacement helps reduce waste, contributing to more sustainable operations. Some systems are packaged in sachets rather than metal tins so more can fit on a pallet and packaging waste is reduced by up to 80% on site.
Industrial and manufacturing facilities across various sectors often face unique flooring challenges. For example, in the food and beverage industry, floors need to be resistant to harsh cleaning chemicals, moisture and spills, while also supporting high hygiene standards. For aerospace manufacturing, flooring must withstand extreme temperatures, heavy equipment and the occasional chemical spill.
It’s important to tailor your flooring choice to the specific requirements of your industry to maximise safety, durability and efficiency.
At Sherwin-Williams, we understand that choosing the right flooring for your industrial or manufacturing facility is an important decision. With the diverse challenges you face—ranging from heavy machinery and forklift trucks to exposure to chemicals and extreme temperatures—your flooring needs to be durable, reliable, and tailored to your unique operational requirements.
That’s why Sherwin-Williams offers a broad range of high performance heavy-duty flooring solutions designed to meet the demanding conditions of industrial and manufacturing environments.
Sherwin-Williams offers a comprehensive selection of flooring systems that can withstand the toughest conditions. Whether you need the chemical resistance of epoxy, the impact strength of polyurethane, the temperature resistance of polyurethane cement or the rapid curing time of polyaspartic and MMA systems, we have the right solution for your facility.
● Epoxy flooring: Perfect for general-purpose industrial environments with moderate wear.
● Polyurethane flooring: Ideal for areas that require more flexibility and impact resistance.
● Polyurethane cement flooring: Designed to withstand extreme chemical exposure and thermal shock.
● Polyaspartic and MMA flooring: Fast-curing systems that reduce downtime while offering durability and resistance to harsh chemicals and heavy traffic.
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Our experts at Sherwin-Williams are here to guide you through every step of the flooring selection process. We don’t just offer a one-size-fits-all solution—we take the time to understand the specific needs of your facility.
Our team will work closely with you to assess a range of factors:
● Traffic and load requirements: We’ll help you select flooring that can handle the level of foot traffic, heavy equipment and material handling unique to your site.
● Exposure to chemicals: For manufacturing facilities dealing with oils, solvents, acids or other chemicals, we’ll recommend flooring systems with the necessary chemical resistance to prevent damage.
● Temperature extremes: Whether you need flooring that can endure high heat or extreme cold, we have solutions designed to perform under temperature fluctuations.
● Slip resistance and safety: Safety is a top priority, and our team will help you choose the best slip-resistant finish to minimise the risk of slips, trips and falls in your facility.
Choosing the right flooring isn’t just about the product—it’s also about ensuring proper installation and long-term performance.
Sherwin-Williams offers expert consultation to help you select the flooring solution that best fits your operational needs and budget. Our knowledgeable professionals will guide you in making an informed decision based on factors like facility layout, operational demands and aesthetic preferences.
Once your flooring is selected, our experienced installation team will ensure that the system is installed quickly and effectively, minimising downtime and disruption to your operations.
At Sherwin-Williams, we don’t just want to provide you with a flooring solution—we want to build a long-term partnership with you. Our experts are available to assist you with ongoing support, ensuring your floors continue to perform at their best over time. Whether you need advice on maintenance, cleaning or repair, we’re here to help.
With Sherwin-Williams’ wide range of flooring products and expert guidance, you can be confident that you’ll find the ideal solution for your facility’s needs.
Let us help you create a durable, safe and efficient environment with the perfect heavy-duty flooring system for your industrial space.
The best heavy-duty flooring for industrial and manufacturing facilities is not a one-size-fits-all solution. By carefully considering factors such as chemical exposure, temperature fluctuations, load-bearing requirements and safety concerns, you can choose a flooring system that will not only support your workforce but also improve efficiency and reduce long-term costs.
Sherwin-Williams is the leading provider of heavy-duty floor coatings and linings for industrial and manufacturing facilities. Our line of high performance resin flooring offers superior resistance to moisture, chemicals, impacts and abrasions. With our durable, easy-to-clean and long-lasting industrial and manufacturing flooring, you can extend the lifespan of your facility floors and experience cost savings for years to come.
The durability of any floor depends on its use. A flooring material specifically suited to the challenges of its facility is far more likely to stand the test of time, saving companies the long-term costs of maintenance, repair, and replacement.
It is common to employ multiple flooring surfaces throughout a single facility, tailoring each zone to the activity that takes place there. An auto dealer’s showroom, for example, does not encounter the harsh chemicals and sharp impacts that are all in a day’s work in the service shop. A dealer on a budget may choose a cheaper, less resilient floor for the showroom to afford a more hard-wearing surface for the shop bays.
When looking at industrial flooring options, ask:
Will people be walking or driving on the floor? Areas with high foot traffic should be even and slip resistant to prevent falls. A floor that supports vehicle traffic should be able to support and disperse the rolling weight of the vehicle and be abrasion resistant to prevent wear patterns. The floor under heavy machinery must be able to support the machine's full weight and protect the subfloor from any vibrations. If the machine generates heat or cold, or if there is a possibility that ingredients or chemicals may spill on the surrounding floor, those factors must be taken into account.
Some flooring ideal at moderate temperatures will soften under the extreme heat of a commercial oven or crack in the extreme cold of a deep freeze. Consider not only the average temperature of the environment, but any extreme temperature swings the floor may have to endure.
“If you have a deep freezer next to a warm room, you have to realize that every time you open that door the floor outside is microfreezing in a blast of cold air,” says Spencer Martin, Argelith’s national sales director. “A qualified installer is going to recognize that and use some kind of separation between those floors.”
Nearly all flooring materials will expand and contract under temperature shifts. The floor should be designed to accommodate this movement, not fight it. A rigid material that does not allow thermal expansion and contraction is likely to crack due to the movement of the subfloor. Rigid floor coverings should be installed with expansion joints to accommodate this movement.
Wet environments like breweries or slaughterhouses have more requirements than dry environments like bakeries or retailers. Thanks to gravity, everything eventually ends up on the floor. Factors to consider when flooring a wet environment include absorption, slip resistance, and drainage.
Chemical resistance refers to a floor’s ability to withstand exposure to acids, oils, and caustic materials. An auto lube shop works with very different chemicals than a soft drink manufacturer, but both require flooring that can withstand chemical attack. A facility designer must know exactly what substances may hit the floor and how they affect the various components of a flooring system. Substances include materials required to operate equipment, like oil or brake dust, as well as ingredients and effluent. A chemical resistant flooring system includes not only the main floor but also grouts, topcoats, or underlayments.
If this is a starter location for a growing business and owners plan to move in three to five years, a low-priced option like epoxy or polished concrete will work just fine. There’s no need to buy a 30-year floor for a five-year location. For a company that plans to be in the same location for decades, the upfront savings of a lightweight floor will soon disappear in the constant cycle of repairing, resealing, or replacing. A heavy-duty floor like vitrified tile, while more expensive at the outset, lasts longer with less maintenance, and thus costs less per year to own.
Facilities that produce food, beverages, pharmaceuticals, or other products for consumption are subject to USDA or FDA hygiene standards. Other industries may also have standards or industry guidelines established to ensure facility and product safety.
A “high traffic area” means, quite simply, an area that is frequently traveled by foot or by vehicle. A grocery store filled with walking customers and rolling shopping carts, an auto service shop with walking technicians and driving cars, and a restaurant kitchen filled with rushing staff are all examples of high traffic areas.
It is important for high traffic flooring to resist abrasion. Hard wearing industrial flooring should be able to hold up under years of traffic without grooves or wear patterns appearing along frequently traveled paths. These wear patterns are more than unsightly; as the surface layer of a floor wears away, the floor may become susceptible to all those things it was supposed to resist, like water and chemicals.
Thin coatings are not well suited to high traffic areas for this reason. For long-term durability, companies should look to thick or full-body floor coverings. A full-body flooring material has the same density, hardness, color, and resilience throughout. Surface scratches, scrapes, or wear patterns on full-body flooring are less visible and do not affect the resistant properties of the floor.
Slip resistance is an important consideration in areas with high foot traffic. Companies that cut corners on this feature may find themselves on the wrong end of expensive lawsuits or workers’ compensation claims after a slip-and-fall accident.
The amount of slip resistance needed depends on the environment. The floor in a car wash, for example, is virtually always covered by slippery substances like water, soap, and wax, while bakery floors stay mostly dry. When choosing a flooring surface, the bakery could safely opt for a lower profile than the car wash.
Industrial anti-slip flooring typically relies on either texture or grit to increase traction. Texture is found in flooring surfaces like dry-pressed tile. At the time of manufacture, tiles are pressed into molds that leave a textured impression on their surface. The deeper the impression, the higher the tile’s slip resistance.
Liquid flooring options rely upon grit to provide slip resistance. At some point after the floor coating has been poured, a fine, gritty substance is scattered across the top. As the floor cures, this grit becomes a permanent part of the surface. A good flooring contractor will be careful to spread the grit evenly across the floor to avoid unexpected slick spots. If the coating begins to peel, wear off, or is otherwise compromised, it is important to repair as soon as possible, as the underlying surface will not be slip resistant.
A floor’s cleanability is directly related to its slip resistance. The same texture or roughness that provides traction underfoot creates small nooks and crannies where dirt can settle. The more slip resistant the floor, the deeper these crannies are, making them difficult to clean with conventional methods like mopping. Most brands of industrial tile, including Argelith, have a baked-on finish that reduces friction and enhances cleanability. For easiest cleaning, companies should choose the lowest profile that provides the required level of grip. A floor scrubber equipped with a vacuum is an effective way to remove soil from a slip resistant floor.
All industrial flooring begins with a concrete subfloor. Industrial floor coverings come into play because most concrete, on its own, is porous and is not chemical resistant.
Chemical reactions damage a floor’s integrity. In some cases, the reaction is immediate and visible in the form of a stain. Concrete corrodes quickly under chemical attack, becoming dusty, cracked and pitted.
In many cases, however, chemical attack is slow and insidious, invisibly weakening the floor covering and allowing water, chemicals, and microbes access to the vulnerable subfloor.
It is vital facility designers know exactly what substances are being used in each area of the facility and how they react with the elements that make up the floor. A bakery, for example, may use acidic substances like sugar and fruit juice; alkaline substances like salt; and oily substances like food oils and nuts. The person or team specifying flooring for the bakery must understand how each of these ingredients will react with the flooring material being considered.
Water is the natural enemy of concrete. As a concrete floor absorbs moisture, it creates a lush breeding ground for mold and microbes. Iron rebar deep in the concrete corrodes under the damp conditions. As the water freezes and thaws, its expansion and contraction is too much for the concrete to bear, causing the floor to buckle and crack.
Chemical floor coatings rely upon sealants or water-resistant topcoats to protect the subfloor from moisture damage. These sealants can be effective as long as they are carefully monitored for cracks and wear and are reapplied periodically. The frequency of reapplication depends on a variety of factors.
While glazed tile also uses a surface coating to repel moisture, vitrified ceramic relies upon its density to resist water damage. The manufacture of pressed vitrified tiles involves a series of steps, each of which presses the molecules in the tile closer and closer together. By the time an Argelith fully vitrified tile leaves the factory, there is not enough space between the ceramic molecules to allow water to penetrate, resulting in a permanent absorption rate of less than 0.1 percent.
When tiling areas with heavy or frequent water exposure, a facility designer must be careful to specify water-resistant adhesive and grout. Fully vitrified tile laid with an epoxy grout is water resistant, but just like a full epoxy floor, the epoxy grout may eventually require reapplication. A water-resistant adhesive prevents any moisture that seeps through a damaged grout joint from affecting the subfloor beneath.
Wet areas like car washes or beverage production lines can be further protected with the addition of wall tile and cove base. Wall tile, whether vitrified or glazed, protects the wall in the splash zone of wet applications. Cove base joins the floor and the wall on a curve, rather than a 90-degree angle. This allows water to roll down the curve and onto the floor, which should be sloped to a drain, rather than settling into the joint between wall and floor.
Drains are another important aspect of flooring in a wet industrial zone. Like the flooring itself, drains should be made of a material that will not react or corrode under exposure to the substances used in the industry. Floors in wet areas should be sloped to drains and laid in such a way that water flows freely to the drain rather than puddling or traveling in channels.
A successful industrial flooring installation is not a do-it-yourself project.
Cash-strapped business owners may think flooring their facility is akin to painting their garage floor or tiling the bathroom in their home. This naivete is a mistake that could cost the business dearly when the amateur flooring job eventually fails.
An effective industrial floor has at least four parts: the properly prepped subfloor; the underlayment, base coat, or mudbed; the main body of the floor; and a topcoat or grout. In some cases, additional layers like slipsheets or moisture vapor transmission barriers may be required. Failure in any one of these levels could lead to failure and expensive remediation of the entire floor.
A business that hesitates to spend on installation will almost certainly be forced to spend on remediation.
When choosing a flooring installer, make sure the chosen contractor is experienced with your industry. Experienced installers should be able to provide references within the same industry as the prospective client. In an ideal scenario, you should also be able to visit these references and see the installation firsthand.
A qualified installer will be familiar with the demands of the industry and with any pertinent regulations or requirements, such as USDA or FDA regulations for food production facilities.
Qualified installers have the experience and education to place expansion joints in the optimum locations to prevent cracking and understand the ideal environmental conditions under which to lay the floor.
A reputable installer will have access to materials and tools that may not be readily available at do-it-yourself stores. He or she should be able to tell the prospective client what products are recommended for the floor and why. The experienced installer will understand how each element of the floor works with the others and can ensure each product used in the installation is compatible with the others.
While a building material’s impact on health and the environment may not be your first consideration, firms are reporting it as increasingly relevant.
Some building materials emit chemical fumes or volatile organic compounds (VOCs). Some people have a heightened sensitivity to these products and may find it difficult to work around them. Facilities that manufacture products for consumption, like food and pharmaceuticals, may also have concerns about product contamination from abraded particles of these materials. A product’s recyclability at the end of its lifespan and the environmental impact of its manufacture are also features to consider when attempting to choose green building materials.
Argelith’s fully vitrified industrial tile is a hard-wearing option for facilities with demanding environments. The strength and density of the tile supports heavy weight, and when properly installed distributes the weight evenly across a wide area of the subfloor. The hardening process the tiles undergo results in a surface that meets or exceeds industry standards in abrasion resistance, and the tiles are a full-body floor covering, making them a durable choice in high traffic areas.
Argelith’s fully vitrified tiles have a water absorption rate of less than 0.1%, making them suitable for wet environments when installed with a water-resistant grout and adhesive. Hexalith tiles are designed to slope to drains at any angle. The tiles are butt jointed, which reduces dependence on grout and results in small, flat grout lines that do not channel water.
Tiles are available in an assortment of slip resistant profiles. Because the profile relies upon texture, not grit, soil is less likely to cling to the surface.
Ceramic is a natural, chemically stable substance that does not react to chemical exposure. It heats and cools slowly and evenly, and when installed with appropriate expansion joints can be used under boilers, in deep freezers, or at any temperature in between. HACCP-certified ceramic is naturally hygienic and provides no refuge for microbial contaminants. At the end of its useful life, it can be crushed into recycled aggregate and used in future building projects.
Industries well suited to industrial tile floors include:
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