If you’ve been researching film faced plywood price, you’ve probably noticed significant differences across regions, suppliers, and product grades. Some suppliers quote as low as $5 per sheet, while others exceed $25—even for similar-looking panels.
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So, what’s really going on behind the numbers?
Understanding film faced plywood pricing isn’t just about comparing quotes. It’s about evaluating what you’re actually paying for: quality, durability, performance, and reliability on the job site.
In this article, we break down all the key factors that influence the price of film faced plywood, and how smart buyers can make better, cost-effective decisions without sacrificing quality.
Film faced plywood is a type of concrete formwork panel. It features a high-strength plywood core covered with a resin-impregnated film on both sides—usually phenolic or melamine-based. This film improves waterproofing, abrasion resistance, and concrete finish.
Contractors use it for slab formwork, column molds, scaffolding decks, and industrial platforms.
The internal core layers can be made from different wood species, each with unique properties:
???? TIP: Don’t buy based on film type alone—check core details. A cheap price may indicate poplar cores with weak bonding.
The adhesive between veneer layers plays a crucial role in water resistance and panel durability.
???? RULE OF THUMB: Good glue = longer lifespan = lower cost per use.
The resin film on both surfaces varies in type and thickness:
???? A thicker, higher-grade phenolic film may increase upfront cost but greatly improves reusability.
Thicker panels cost more but support heavier loads and more reuses—especially in bridge formwork or high-rise slab pouring.
Well-sealed edges prevent moisture penetration, delamination, and fungus development. Panels with waterproof paint or factory sealing have a higher price but save money in the long run.
Prices vary greatly depending on:
???? In some regions, logistics may add up to 30–40% to the total cost per sheet.
Here’s a rough price range for xmm, 18mm panels:
???? Prices may fluctuate based on container rates, raw material costs, and currency shifts.
Price is important, but total cost per use matters more. For example:
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High-quality plywood reduces waste, labor downtime, and safety risks. Over time, you actually spend less.
???? Ask suppliers for reusability reports, core photos, and glue test certifications.
If a supplier quotes far below the market rate, watch out for:
Always ask for a physical sample, or use a third-party quality inspector before mass purchase.
To get the best deal:
For high-frequency buyers, customizing specs (e.g., core mix, glue ratio, film color) often reduces price per sheet by 8–15%.
Film faced plywood is a technical product, and its price reflects many layers—literally and metaphorically. By understanding what goes into pricing—from core composition to shipping—you can make smarter, safer, and more profitable decisions.
Always think beyond price tags. The best choice is the one that balances cost, performance, and reusability in your specific project context.
Particle Board vs Plywood vs MDF: ????Particle board is an engineered wood product made from wood chips, sawdust, and a binding resin. These materials are pressed together under heat to form sheets. ????Medium-density fiberboard (MDF) is another type of engineered wood made from fine wood fibers bonded together with resin and wax. It is denser than a particle sheet. ????Plywood is made by gluing together thin layers of wood veneer, with the grain of each layer running perpendicular to the one before it. This cross-grain construction gives plywood its strength. 1. Strength and Durability ✔️Particle Board: The least durable, prone to damage under heavy weight or moisture. ✔️MDF: Stronger than particle sheet but can still be damaged by water. ✔️Plywood: The most durable, with excellent strength and moisture resistance. 2. Cost ✔️Particle Board: The cheapest option, ideal for budget projects. ✔️MDF: More expensive than particle sheet but cheaper than plywood. ✔️Plywood: The most expensive, reflecting its superior quality and durability. 3. Workability ✔️Particle Board: Easy to cut and shape but can splinter or chip. ✔️MDF: Easy to work with, providing a smooth surface for paint and veneer. ✔️Plywood: More challenging to cut due to its strength but holds screws and nails well. 4. Moisture Resistance ✔️Particle Board: Highly susceptible to moisture, can swell and deteriorate. ✔️MDF: More resistant than particle sheet but still vulnerable to water. ✔️Plywood: Best moisture resistance, especially with marine-grade options. 5. Environmental Impact ✔️Particle Board: Made from recycled materials, but the resin used can emit formaldehyde. ✔️MDF: Also made from recycled fibers, with similar concerns about resin. ✔️Plywood: Typically has a lower environmental impact if sourced sustainably. ????When To Choose Particle Board? Choose particle board for projects where cost is a significant factor and where the material won’t be subjected to heavy loads or moisture. It’s ideal for temporary structures, furniture that won’t see much use, or budget-friendly DIY projects. ????When To Choose MDF? MDF is the right choice when you need a smooth, paintable surface, such as for cabinetry, doors, or decorative panels. It’s also suitable for indoor furniture where moisture exposure is minimal. ????When To Choose Plywood? Plywood is the best option for projects requiring strength, durability, and moisture resistance. Use it for flooring, walls, roofing, and furniture that needs to withstand heavy use or exposure to the elements.
What is MDF (medium-density fiberboard) Door? MDF refers to medium-density fiberboard, which is an engineered wood product made from recycled and reused wood fibers. Its development was aimed at serving as an economical and more durable alternative to natural wood, as it can resist cracking, deformation, expansion, contraction and splitting. Compared to many types of wood (including pine and poplar), it can also provide a smoother surface for painting. MDF differs from particleboard in several notable ways: Density: MDF has a density that is more uniform. Machinable edges: MDF features tight, smooth edges that can be machined. No need for laminates: Furthermore, it can be finished to a smooth surface and grain printed, which eliminates the need for laminates and veneers. Thicker MDF panels, which range from 1/2 inch to 3/4 inch, are often used as core materials in furniture panels. MDF panels with thicknesses less than 1/2 inches are commonly used in siding. Benefits of MDF Doors MDF doors offer a number of benefits over their solid wood counterparts, including: No deformation like wood, medium-density fiberboard also shrinks and expands due to changes in humidity and temperature. However, the difference between medium-density fiberboard and wood is that it does not deform. This is attributed to the structure of the board, allowing it to move as a whole. Even if the changes in temperature and humidity are very drastic, there will be no damage to the wood. There is no longer any need to worry about wooden doors that cannot be installed in the door frame due to deformation! Solid wood doors are highly susceptible to temperature changes, and drastic changes in humidity and temperature can have adverse effects on solid wood doors. Although there have been advancements in technology and manufacturing, solid wood doors still undergo a certain degree of contraction and expansion. More affordable The doors made of medium-density fiberboard (MDF) can enable homeowners to obtain the same strength and durability as solid wood doors at a lower price. Although not all solid wood doors are expensive, most are. Many of the most popular wood types, such as walnut, cherry, and white oak, are quite expensive, while rare wood varieties like redwood and teak can be extremely expensive. The three main factors affecting the price are aesthetics, durability, and availability. Fireproof doors Where can buy MDF Door? We (Shanghai Xunzhong industry Co.,LTD)can provide MDF Door with UL certification ,Our MDF doors are made of high-quality materials and with advanced manufacturing techniques. We pay close attention to every detail, from the smoothness of the surface to the durability of the hinges. As a direct supplier, we can offer you highly competitive prices while ensuring product quality. Any further information contact me please : :+
Why birch ply is Good for Engineered Wood Flooring Birch Ply Birch Plywood is a versatile and high-quality material that has found its place in various industries and applications. Known for its durability, strength, and attractive appearance, Birch Plywood is a top choice for professionals and DIY enthusiasts alike. In this article, we will delve into the world of Birch Plywood, exploring its characteristics, applications, and advantages. Birch Ply: An Introduction Birch Plywood, often simply referred to as "Birch Ply," is a type of plywood made from birch trees native to Russia. It is renowned for its exceptional quality and is considered one of the best plywood options available. This plywood is manufactured by layering thin sheets of birch veneer and bonding them together with a strong adhesive. The result is a sturdy and dimensionally stable sheet material with a wide range of uses. Why Choose Birch Ply? Birch Plywood stands out for several compelling reasons: Strength and Durability: Birch Ply is known for its incredible strength, making it suitable for demanding applications where structural integrity is crucial.Birch plywood is a great choice for the core of engineered wood flooring due to its dimensional stability, strength, and workability. Its multiple, cross-banded layers offer superior resistance to warping and swelling, making it ideal for areas with fluctuating humidity and temperature. The tight, void-free construction also allows for excellent screw-holding and gluing, which is crucial for a durable floor. Here's why birch ply stands out: Stability: Unlike solid wood, Russian birch plywood resists expanding and contracting with changes in temperature and humidity, according to Archer Ply. This is crucial for maintaining a flat, even floor surface. Strength and Durability: The multiple layers of birch veneer create a strong and durable core that can withstand heavy foot traffic and resist wear and tear. Workability: Russian birch plywood is relatively easy to cut, shape, and install, making it a good option for both professional installers and DIYers. Aesthetic Appeal: The light color and fine grain of birch veneer add to the overall beauty of the engineered wood floor. Sustainability: Some suppliers source Russian birch plywood from sustainably managed forests, making it an eco-friendly choice, according to Nd Floor. Versatility: It's suitable for various applications beyond flooring, including furniture, cabinetry, and architectural details. Reduced Gaps: Unlike some other plywood types, birch plywood is known for having fewer voids or gaps between layers, resulting in a more solid and stable core. for more information written at :-
MR & BWR Grade Plywood: Understanding the Differences Plywood is a versatile and widely used material in construction, furniture making, and various other applications. When it comes to choosing the right plywood for a project, understanding the different grades is crucial. Two commonly used grades are MR (Moisture Resistant) and BWR (Boiling Water Resistant) plywood. Let's dive into the differences between these two grades. MR Grade Plywood MR grade plywood is designed to be moisture-resistant. It's made using urea-formaldehyde resin, which provides decent resistance to moisture but isn't foolproof against prolonged exposure to water or high humidity. MR plywood is suitable for interior applications where the plywood won't be exposed to excessive moisture or water. Common uses include furniture making, interior partitions, and cabinetry. BWR Grade Plywood BWR grade plywood, on the other hand, is more robust when it comes to withstanding moisture. It's manufactured using phenol-formaldehyde resin, which gives it better resistance to boiling water and makes it more durable in humid or wet conditions. BWR plywood is ideal for applications that require higher moisture resistance, such as exterior uses, bathrooms, kitchens, or areas prone to dampness. Key Differences Moisture Resistance: BWR plywood has higher resistance to moisture and can withstand boiling water tests, making it suitable for more demanding environments. Resin Used: MR plywood uses urea-formaldehyde resin, while BWR plywood uses phenol-formaldehyde resin. Application: MR plywood is best for interior, dry applications. BWR plywood can handle more moisture and is used in both interior and exterior applications where moisture exposure is a concern. Choosing the Right Grade When deciding between MR and BWR grade plywood, consider the project's requirements and the environment where the plywood will be used. For interior projects with minimal moisture exposure, MR plywood might suffice. However, for projects needing higher durability against moisture or for use in damp areas, BWR plywood is the better choice. In summary, understanding the differences between MR and BWR grade plywood helps in selecting the right material for your needs, ensuring the longevity and performance of your project. #PlywoodGrades #MRPlywood #BWRPlywood #MoistureResistance #PlywoodSelection #ConstructionMaterials #FurnitureMaking #Woodworking #BuildingMaterials #PlywoodTypes #InteriorDesign #ExteriorUse #MoistureResistant #BoilingWaterResistant #PhenolFormaldehyde #UreaFormaldehyde #PlywoodApplications #WoodProducts #ConstructionTips #DIYProjects #HomeImprovement #WoodworkingTips #MaterialSelection #PlywoodPerformance #DurabilityMatters
???? Finger Joint in Wooden Furniture Manufacturing: Smart Joinery for Stronger, Sustainable Solutions In modern wooden furniture manufacturing, strength, precision, and sustainable material usage are critical. One smart technique that checks all three boxes is the Finger Joint — a joinery method that turns small wood cut-offs into structurally strong, cost-effective, and aesthetically pleasing furniture components. Let’s explore how it works and why it’s a go-to solution in the woodworking industry. --- ???? What is a Finger Joint? A Finger Joint is a method of joining two pieces of wood by cutting interlocking "fingers" at the ends, which are then glued and pressed together. The joint is named so because it resembles two hands with fingers interlocked. It’s a simple yet effective way to create longer and stronger wooden boards from shorter pieces that might otherwise be considered scrap. --- ⚙️ How Does It Work? First, the ends of two wood pieces are machined into a pattern of alternating “fingers.” Then, glue is applied, and the pieces are interlocked perfectly. After pressing and curing, the joint becomes extremely strong and seamless. The final product is sanded or machined for smoothness and consistency. --- ✅ Why Use Finger Joints? Minimizes wood waste by utilizing small cut-offs Creates longer and straighter boards for doors, frames, panels, and tops Improves stability, reducing the risk of warping or bending over time Cost-effective and supports sustainable production practices High strength due to increased gluing surface area --- ???? Where Is It Used? Finger joints are widely used in: Door and window frames Finger-jointed panels Table tops and bed rails Cabinet construction Flooring boards --- ???? Supporting Sustainability in Furniture Manufacturing By repurposing smaller wooden sections that might otherwise go to waste, finger joint technology helps reduce raw material consumption and supports eco-friendly, responsible production. It enables manufacturers to get more value out of every tree — a big win for both business and the environment. --- ???? Final Thoughts The Finger Joint is more than just a joinery method — it’s a clever solution to material challenges, cost concerns, and structural demands in woodworking. Whether you're an engineer, designer, or workshop owner, understanding and utilizing finger joints can improve both your product quality and your bottom line. --- ???? Have you used finger joints in your woodworking or manufacturing process? Share your experience or thoughts in the comments! --- ???? #FurnitureManufacturing #FingerJoint #WoodJoinery #SustainableDesign #WoodworkingInnovation #ManufacturingExcellence #BangladeshFurniture #SmartProduction
The Ultimate Guide to Plywood and Boards: Types and Applications Plywood and boards are essential materials in construction, furniture-making, and various DIY projects. With so many types available, choosing the right one can be overwhelming. In this article, we'll explore the different types of plywood and boards, their characteristics, and uses. Types of Plywood Marine Plywood: Made from durable hardwoods, marine plywood is resistant to moisture and ideal for boat-building, waterfront construction, and other applications where exposure to water is high. Exterior Plywood: Designed for outdoor use, exterior plywood is made with water-resistant adhesives and can withstand harsh weather conditions. Interior Plywood: Suitable for indoor applications, interior plywood is a cost-effective option for furniture-making, shelving, and paneling. BWR Plywood: Boiling Water Resistant (BWR) plywood is made with a special adhesive that can withstand boiling water, making it ideal for applications where moisture is present. MR Plywood: Moisture Resistant (MR) plywood is designed for indoor applications where humidity is moderate, such as in kitchens and bathrooms. Types of Boards MDF Board: Medium-Density Fiberboard (MDF) is made from wood fibers and is ideal for furniture-making, shelving, and molding. Particle Board: A cost-effective option, particle board is made from wood particles and is suitable for furniture-making, shelving, and packaging. Blockboard: A type of engineered wood, blockboard is made from a core of wood strips sandwiched between two layers of plywood. Pllywood Board: Also known as densified plywood, plyboard is made from layers of plywood pressed together to form a solid board. OSB Board: Oriented Strand Board (OSB) is made from strands of wood pressed together with adhesives, making it a cost-effective option for construction and furniture-making. Plywood and boards are versatile materials with a wide range of applications. By understanding the different types and their characteristics, you can choose the right material for your project and ensure a successful outcome. #Plywood #Boards #Construction #FurnitureMaking #DIY #HomeImprovement #Woodworking #MDF #ParticleBoard #Blockboard #Plyboard #OSB #PineBoard #CedarBoard #BambooBoard #MarinePlywood #ExteriorPlywood #InteriorPlywood #BWR #MR #WoodMaterials #BuildingMaterials #Sustainability #EcoFriendly #HomeDecor #Shelving #Storage #Paneling #Packaging #Shipping #FurnitureDesign #WoodCraft #EngineeringWood #WoodProducts #HomeRenovation #DesignInspiration #MaterialsScience #WoodworkingCommunity #PlywoodTypes #BoardTypes #WoodOptions #ConstructionMaterials #FurnitureMaterials #DIYMaterials #HomeImprovementMaterials #WoodworkingMaterials
Are you tired of uneven lumber and inconsistent thicknesses? It's time to elevate your craft with the C-500N-EH Planer – the ultimate solution for precise and efficient wood dimensioning. What is the C-500N-EH Planer? The C-500N-EH is a robust and high-performance thickness planer (also known as a thicknesser). It's a woodworking machine designed to meticulously trim boards to a consistent and desired thickness, ensuring both faces are perfectly parallel and smooth. What Does it Do? This powerful machine takes rough-sawn lumber or uneven boards and transforms them into perfectly dimensioned stock. It effectively: Reduces Board Thickness: Precisely mills wood to your exact specifications. Creates Parallel Faces: Ensures both sides of your lumber are perfectly parallel, crucial for stable and professional joinery. Smoothes Surfaces: Removes rough saw marks and imperfections, leaving a clean, smooth finish ready for your next steps. Handles Various Wood Types: Engineered to deliver optimal planing results across all types of wood. Who Can Benefit from the C-500N-EH? This planer is an indispensable tool for: Professional Woodworkers & Cabinet Makers: Achieve consistent, high-quality results for furniture, cabinetry, and custom projects. Joinery Specialists: Ensure precise fits and strong joints with perfectly dimensioned lumber. Building & Construction Companies: Efficiently prepare timber for framing, flooring, and other structural applications. Educational Institutions & Training Centers: A reliable machine for teaching precision woodworking techniques. Serious DIY Enthusiasts: Take your home projects to a professional level with accurate and smooth lumber. Anyone working with rough lumber: Significantly reduce material costs by processing your own stock. Key Benefits of the C-500N-EH Planer: Unmatched Precision: Achieve highly accurate and consistent thicknessing for superior project quality. Increased Efficiency: Rapid material removal capabilities and a steady feed rate significantly reduce processing time. Cost Savings: Transform rough, more affordable lumber into usable, dimensioned stock, saving you money in the long run. Superior Finish: Leaves a remarkably smooth surface, minimizing the need for extensive sanding. Robust & Stable Design: Built for durability and stability, with vibration-absorbing feet and overload protection for safe, reliable operation. Clean Workspace: Integrated chip extractor ensures a tidy and safer working environment. Don't compromise on precision and efficiency. Invest in the C-500N-EH Planer and experience the difference in your woodworking projects! #Woodworking #Planer #Thicknesser #WoodworkingTools #Manufacturing #PrecisionWoodworking #Lumber #Joinery #Cabinetry #Construction #Tools #C500NEH
"Stainless steel hinges may cost more than ordinary iron hinges, yet their market demand keeps growing—why?" Despite their higher price, stainless steel hinges have become a preferred choice in modern construction, high-end furniture, and industrial applications. What makes them worth the investment? From unmatched corrosion resistance to long-term cost savings, the advantages go far beyond initial pricing. Let’s break down why professionals and homeowners alike are willing to pay a premium for stainless steel hinges—and when they truly outperform cheaper alternatives. Stainless steel hinges outperform iron hinges in multiple aspects, particularly in durability, corrosion resistance, and aesthetics. Here's a detailed comparison: 1. Superior Corrosion Resistance Stainless Steel: Contains chromium (typically ≥10.5%), forming a passive oxide layer that resists water, humidity, acids, and alkalis. Ideal for kitchens, bathrooms, and other damp environments. Iron Hinges: Prone to oxidation and rust, especially in humid conditions, leading to structural degradation over time and requiring frequent replacement. 2. Longer Lifespan Stainless steel's resistance to wear and corrosion ensures a much longer service life compared to iron hinges, which may suffer from rust, stiffness, or breakage. 3. Strength & Load-Bearing Capacity Stainless steel (e.g., grades 304 or 316) offers high strength, supporting heavy loads and frequent use, while iron hinges may deform or weaken over time. 4. Hygiene & Easy Cleaning Stainless steel's smooth surface resists dirt buildup and allows easy sterilization, making it suitable for hospitals, labs, and food processing. Rusty iron hinges can contaminate surroundings. 5. Aesthetic Appeal Stainless steel maintains a sleek, modern appearance, whereas iron hinges require coatings (e.g., plating or paint) that may peel, compromising looks. 6. Lower Maintenance Costs Stainless steel is virtually maintenance-free, while iron hinges need regular anti-rust treatments (e.g., oiling or repainting), increasing long-term costs. 7. Eco-Friendliness Stainless steel is 100% recyclable, whereas rusted iron hinges generate more waste. Usage Scenarios Stainless Steel Hinges: High-end furniture, outdoor doors/windows, marine applications, hospitals, and laboratories. Iron Hinges: Short-term or budget projects (e.g., temporary setups), but require rust prevention measures. Exceptions If iron hinges undergo special treatments (e.g., zinc plating or Dacromet coating), their rust resistance improves, but costs may approach stainless steel, and they remain less eco-friendly. Conclusion: Stainless steel hinges are the superior choice in most environments, especially for durability and low maintenance. Iron hinges are only suitable for dry, low-budget, or short-term uses.
???? Understanding the Difference: Air-Dried, Green, and Kiln-Dried Oak ???? When it comes to choosing the right oak for your project, understanding the differences between air-dried, green, and kiln-dried oak is crucial. Each type has its own unique qualities, and selecting the right one can make all the difference in the outcome of your build. ???? Green Oak: What is it? Green oak is freshly cut oak that has not been dried yet. Characteristics: This oak contains a high moisture content, making it heavier and more prone to shrinking and warping as it dries. Best for: Traditional building projects where the oak is used for framing, as the drying process can take place over time naturally. Green oak is also popular for oak frames that will settle and shift as part of the natural curing process. Pros: Cost-effective and perfect for projects where the material can adjust over time. ???? Air-Dried Oak: What is it? Air-dried oak has been naturally dried for months, sometimes even years, by being stacked and exposed to the elements (but protected from rain). Characteristics: This oak has lower moisture content compared to green oak, and it’s naturally seasoned by the air. It’s not as dry as kiln-dried oak but has fewer issues with movement than green oak. Best for: Projects where the oak’s natural aging and strength are desired, such as in joinery and furniture making. Pros: More stable than green oak, retains a rustic, natural look, and is ideal for projects requiring less shrinkage. ???? Kiln-Dried Oak: What is it? Kiln-dried oak has been dried rapidly in a controlled environment, ensuring that moisture levels are significantly reduced. Characteristics: With moisture content reduced to around 10-12%, kiln-dried oak is extremely stable and doesn’t suffer from warping or shrinking once installed. Best for: Interior joinery, furniture, and any project where precision and minimal movement are essential. Pros: Consistent quality, fast drying process, and highly stable. It’s ideal for projects requiring fine finishing. ????️ Choosing the Right Oak for Your Project Each type of oak has its place, depending on the project requirements. Whether you're building a timber frame, crafting furniture, or designing an extension, selecting the right oak will ensure your work is both durable and visually stunning. Ready to take on your next project with the perfect oak? Let’s discuss your options! #Woodworking #Oak #Timber #SustainableBuilding #Craftsmanship #WoodworkingTips #HomeImprovement #WoodTypes #TimberFrames
Surface Systems Expert Advice On Some Common Epoxy Resin Flooring Concerns Put simply, epoxy flooring is a cost-effective and durable flooring solution for many industries. It’s a two-part product made up of a resin and an activator and is applied under specific conditions. It cures and hardens thanks to a chemical reaction. It’s a science! Epoxy resin can be a complicated material to install without experienced and professional floor layers mixing and applying it. Epoxy resin flooring should look smooth and clean. Does yours? By choosing an experienced, knowledgeable industrial resin flooring company such as our Surface Systems team, these common concerns shouldn’t be of any interest to you! However, let’s look at some problems that might occur with a poorly laid floor. The finish isn’t smooth. An inconsistent finish to your floor is likely to be due to installing the wrong quantity of epoxy resin. The right amount is key to ensuring a level, or self-levelling, and even coating. Too little means poor coverage, and too much means the curing is uneven. Decent tools such as an adjustable speed mixer, and thorough mixing will make sure the epoxy sets evenly. Your installation team should know exactly the right temperature for the flooring to be mixed and applied to avoid these issues. Air bubbles and pinholes. Was the existing floor checked for humidity before proceeding with the floor coating? If the concrete was fresh, your chosen installers should have allowed 28 days before the epoxy coating is laid onto fresh concrete. The correct primer that is used depends on the floor’s moisture content. Brush or roller marks. A spiked roller should be used on a self-levelling floor to eliminate bubbles. Back rolling will allow for a more uniform distribution of the product. There is an art to laying an epoxy resin floor! Why is the new floor dull or discoloured? Epoxy resin flooring comes in a choice of colours and finishes. But it shouldn’t look dull and discoloured. Poor mixing and the wrong ratio of resin to activator are likely to give a discoloured and dull finish. The mix may have been left standing for too long. It may have had exposure to chemicals or to the sun when it was drying. My floor’s peeling! This is a problem you could really do without. All the benefits of the epoxy flooring are lost fast. It’s all about the preparation. Preparation is key! Find out more with our blog https://lnkd.in/eHsw6zGU #SurfaceSystems #Flooring #FlooringIssues #FlooringExperts
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