01/28/2016

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Best Commercial Roofing Products: EPDM Rubber Roofing Article Source: http://oldproroofing.com/epdm-commercial-roofing/ EPDM roofing is the tried and true commercial roofing material that has been used for over 40 years on low-slope roofs and is used by many Fort Worth roofing companies that offer commercial roofing services. EPDM, or ethylene propylene diene monomer, is a durable rubber membrane that protects flat or low-slope commercial buildings from water, wind, sun and other elements. EPDM is though to be one of the best commercial roof applications available. Benefits Of EPDM The true test of any product is whether it actually performs in a live environment. EPDM roofing has shown that it can handle the elements as promised and newer improvements have been made to ensure that it will only become more reliable. Commercial builders choose EPDM for a variety of reasons: - Wind resistance. EPDM can resist wind damage and uplift. EPDM roofs can be rated to resist high winds, anywhere from 60 to 120 MPH. - Heat resistance. These rubber roof coatings are both heat and fire resistant making them perfect for the hot, Texas weather. - UV radiation resistance. EPDM is resistant to ultraviolet radiation. - Weather elements. Hail, wind, rain and snow are all handled well by this high endurance rubber membrane. One of the main benefits of having A EPDM roof is that there is no needed maintenance on these roofs. Most do not need regular resealing or surface treatments. Roofs should just be kept free of debris and periodically inspected. Types OF EPDM EPDM roofing comes in two main types, white and black. In warmer climates such as Texas, white is the most commonly used due to its energy-saving capabilities. White EPDM has a reflective, environmentally friendly surface that enhances the membranes ability to reflect UV rays and conserve in air-conditioning costs. In cooler climates, the black EPDM is preferred, attracting heat and reducing heating costs. EPDM Installation There are three main ways to install EPDM roofing: Ballasted, mechanically attached and fully adhered systems. However, white EPDM, which is the most commonly used in Texas, is installed with either the mechanically attached or the fully adhered system. - Mechanically attached system. The most economical installation method is using the mechanically attached system. This method is lightweight and works well in areas without high winds. - Fully adhered systems. Fully adhered systems are becoming the preferred type of EPDM system due to the longevity and advances in the application. The membrane is bonded to the insulation and attached in large panels. EPDM panel seams are sealed with either a liquid adhesive or specially formulated factory applied tape. The tape has made seaming easier, less labor intensive and creates stronger seams than in the past. Commercial building owners and builders that are considering roofing options need to contact a commercial Fort Worth roofing company to discuss EPDM roofing as an option. The long lasting performance, energy savings and low up keep of EPDM makes it the perfect choice for commercial roofing. Fort Worth Roofing Office: 817-929-ROOF (7663) Dallas...
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Keeping roofs cooler to cut energy costs Asphalt roofing shingles, especially dark ones like those shown here, can get scorching hot on summer days. Then they'll also shed some of that heat into buildings. A new coating can help shingles reflect more of the sunlight that heats them up. And that could cut home cooling bills. Article Source: https://student.societyforscience.org/article/keeping-roofs-cooler-cut-energy-costs Keeping roofs cooler to cut energy costs PITTSBURGH, Pa. — The roof of a house can get pretty hot in the summer. Even if there is an insulated attic below, some of that heat can work its way into the living space. That can make air conditioners work harder and pump up electricity bills. But a thin, paint-like coating could help keep roofs cooler, a teen researcher finds. And in urban areas, widespread use of her new roofing treatment might even cut the formation of lung-irritating ozone on hot days. Shingles come in many colors, but dark ones are especially popular, says Jesseca Kusher. The 18-year old attends Spartanburg Day School in South Carolina. Like most dark objects, shingles absorb a lot of heat from sunlight. In the summer sun, they can easily reach 73.5° Celsius (164° Fahrenheit), she notes. If those shingles reflected more sunlight, they’d stay cooler. And that could help cut down on home cooling bills. According to the Environmental Protection Agency, air conditioning consumes about 5 percent of all the energy used in the United States. Cooling buildings costs the nation about $11 billion each year. Jesseca Kusher, an 18-year-old researcher from Spartansburg, S.C., invented a paint-on coating for roofing shingles. Her formula could reduce a home’s cooling costs and possibly cut ozone pollution in urban areas. LAURA BUITRAGO/SSP So Jesseca looked into ways to make shingles reflect more light. She mixed tiny particles — a powder — made from any of several different substances into a clear paint-like coating. One coating got graphite, the same material in pencil lead. Another recipe included gypsum. That’s a soft mineral often found in the drywall used in construction. She even tried adding mica. That’s a mineral used in some lampshades. It readily breaks into small, glittering flakes. Each of these powders came in several colors. In each of Jesseca’s test recipes, her reflective powder accounted for 40 percent of the weight of the final mixture. She also prepared some of the paint-like coatings with no additive. That would let her judge whether a powder — versus the transparent goop it was added to — affected a shingle’s reflectivity, she explains. Jesseca used four different colored shingles. She painted each of her concoctions onto bits of each color of shingle and let them dry for 24 hours. Then, to simulate how the shingles would heat up in summer, she placed each postage-stamp-size sample under a 150-watt sun lamp. (Those bulbs send out radiation across a wide band of wavelengths, similar to those emitted by the sun.) Each test sample was irradiated for 15 minutes, or until the untreated shingles reached a temperature of 73.5 °C, whichever came...