Are epoxy flake floors the perfect solution for your high-traffic space, or are they hiding a slippery secret? Many property owners and facility managers are drawn to the durability and aesthetic appeal of epoxy flake floors, but concerns about slip resistance can be a deal breaker.
But is the fear of slipping on epoxy flake floors warranted, or simply just a myth? Are epoxy flake floors the solution you’ve been looking for, or are there better options out there? If you have an interest in buying one but don’t want to go down that slippery slope, there are some answers to your questions and concerns.
What Are Epoxy Flake Floors?
Epoxy flake floors are a durable and visually appealing flooring option that is gaining popularity among many. The process of creating an epoxy flake floor involves applying a layer of epoxy base coat to the floor and then sprinkling a layer of colored flakes on top.
These flakes are made from various materials such as PVC, vinyl, or epoxy, and can be customized to different sizes and colors, giving them a unique and customizable appearance. The flakes are then sealed in with a clear topcoat of epoxy, creating a seamless and long-lasting surface that is resistant to wear and tear. With their unique appearance, durability, and longevity, epoxy flake floors are a flooring solution that can meet the demands of any industrial or commercial setting.
Is the Floor Coating Slippery?
When it comes to flake floors, slip resistance is a common concern for property owners and facility managers. These floors are popular for their durability and aesthetic appeal, but a slippery surface can negate all of that.
Slip resistance is a complex issue; there are many factors at play, but the key to it lies in the topcoat of epoxy that seals in the flakes. The type of epoxy used, the size and shape of the flakes, the surface texture, and regular maintenance all play a role in determining the slip resistance.
A glossy epoxy, for example, will be more slippery than a matte finish epoxy, and smaller flakes with a rougher texture will create more friction. A rough or textured surface will also provide more friction and be less slippery than a smooth surface. Additionally, a clean and well-maintained floor will have better slip resistance than a dirty or poorly maintained one.
Is the Floor Coating Safe?
When it comes to epoxy flake floors, safety is of utmost importance. Not only does a safe floor prevent accidents and injuries, but it also helps to create a healthy working environment. But what makes an epoxy flake floor dangerous?
The composition of the coating, potential health risks, and industry regulations and standards all play a role. It’s crucial to ensure that the components used in the coating are of high quality and free of harmful chemicals. Proper application and curing of the coating are also important to prevent potential health risks.
Additionally, industry standards such as OSHA and ASTM have guidelines for slip resistance and traction to ensure that floors are safe for employees and visitors. Ensuring that all these factors are met will guarantee that the epoxy flake floor is safe and poses minimal risks to the users.
About Spartan Coatings
At Spartan Coatings, concrete is transformed into works of art. We are a local, family-owned business serving the community here in Jacksonville and St. Augustine, specializing in elevating the look and durability of concrete surfaces.
With 15 years of experience and a team of experts, we bring a personalized approach to every project, ensuring the best possible outcome for our clients. From stamped concrete to garages and industrial settings, we use the highest-quality products and the latest techniques to deliver long-lasting and easy-to-maintain coatings.
Get Your Free Quote Today
Are you ready to enhance the look and durability of your concrete surfaces? We understand that each project has unique needs and requires a tailored approach. We would love to learn more about your vision and apply your ideal solution. To connect with our team, request your free quote today.