If you’re looking for a durable commercial roofing solution, you might be wondering about the types available. These include Butyl elastomeric, Fluoropolymer, Polyurethane, Acrylic, and silicone. Here’s what you should know about these coating options and how they’re used. After reading this article, you’ll be well on your way to deciding which one is best for your business.
The benefits of a butyl elastomeric commercial roof are numerous. First of all, this coating offers an extra layer of protection for your commercial property, as it extends the life of your roofing system. Leaving your roofing system exposed to the elements can result in premature failure and costly repairs. This is why it’s so important to have your roof coated and inspected twice a year.
Another benefit of a butyl elastomeric commercial roofing coating is its ability to reduce energy costs. This material is highly reflective, meaning it doesn’t absorb solar heat, and instead helps to maintain a comfortable temperature inside the building. In addition, the coating is environmentally friendly, as it uses less electricity to cool buildings. And because it’s a long-term investment, your business will have peace of mind for decades to come.
One of the key drivers of growth in the U.S. fluoropolymer industry is increasing demand for architectural coatings. This segment is predicted to increase 5.3% annually to $2.3 billion by 2019, largely due to an uptick in industrial output and construction activity in emerging economies. The fastest growth in the fluoropolymer market is expected in the construction segment, driven by the rebound of the nonresidential building market.
The formulation of a fluoropolymer coating involves forming a polymer latex with water-soluble or water-dispersible resins. The formulation may contain a minimum film-forming temperature (MFFT) of less than eight degrees Celsius. The MFFT of a fluoropolymer can be increased or decreased by adding certain additives to the coating. In addition to fluoropolymers, some formulations contain acrylic latex or polyurethane dispersions.
The process of applying a polyurethane commercial roof coating begins by cleaning and sweeping the area where the project will take place. Excess debris can cause problems during the application process, so removing it before the project begins is vital. In addition, any significant scarring needs to be repaired before the main coating application. Polyurethane can only repair surface level degrading and minor abrasions, so proper preparation is essential for an even coating across the rooftop. Most polyurethane coating projects begin with a primer that promotes a better adhesion to the roof’s surface.
Polyurethane is a spray-applied foam that is very durable and offers excellent insulation to buildings. It can be applied using a power roller, hand, or foam application and will provide adequate weatherproofing and protection from UV exposure and mechanical damage. It will also help prevent ponding water due to its ability to level the roof. Because it is so resilient, polyurethane is suitable for all types of commercial buildings.
If you are looking for a commercial roof coating, there are a few things to consider. Acrylic roof coatings are waterborne, making them easy to apply. They do not require a two-component mix and are easy to clean up. You can also rinse them easily with water if you use airless spray units. Acrylic roof coatings are considered environmentally friendly due to their low volatile organic compounds (VOC) content. They also do not have a red label or other environmental constraints.
The main difference between silicone and acrylic roof coating is their viscosity. Although silicone and acrylic roof coatings are very similar, silicone is a more durable choice. However, they do cost more, but they last for about the same time. In addition, silicone is a good choice for commercial roofs. However, before choosing a coating, make sure you understand what is needed for the surface of your building. Acrylic elastomeric roof coatings must have high reflective properties, resist ponding water, and be flexible at cold temperatures.