Compare Sidings to Metal Structures
Compare Sidings to Metal Structures
Below you can see the difference between the different type sidings that are used today when dealing with portable buildings and different structures by the largest manufacturers in the industry. We have researched the building material and posted the results along with the pros and cons of the material. Please take the time to look below and read and make your on decision on your investment.
T1-11 siding is a wood based siding product that reached its height of popularity in the 60’s, 70’s and early 80’s, when a more natural, wood-grained look was popular. Its widespread use has dwindled as other siding materials, including steel, aluminum, composite, and vinyl siding have taken over the siding market. It is still produced though but is typically used for shed and barn projects.
Said to be the most environmentally friendly of siding products T1-11 siding comes in two types. The first type is known as the T1-11 plywood siding and the other is known as Oriented Strand board (OSB). T1-11 plywood siding is more expensive than the wafer board sidings or OSB sidings.
So How Is It Made? Quite simply, T1-11 is made from engineered wood (wood products and other materials pressed together), and is a type of plywood siding that comes as T1-11 wood siding, or T1-11 cedar siding.
So What Is The Problem? The maintenance of T1-11 siding is very important as it has to be protected against water, sunlight, and heat. Painting or sealing is mandatory and must be repeated every few years.
T1-11 siding is strong and does have a long life as compared to other sidings. However, it is thought of as cheap in the building community, is considered a barn material, and has been shown to have a high moisture absorption rate on the edges after being applied.
By definition (albeit user-generated definition) masonite is a type of hardboard made of steam-cooked and pressure-molded wood fibers in a process invented by William H. Mason.1
Invented in 1924 in Laurel, Mississippi, by William H. Mason mass production started in 1929. It gained great popularity though in the 1930s and 1940s being used for a number of applications including doors, roofing, walls, desktops, and even canoes. Post-war (WWII) it began being used for house siding. Similar “tempered hardboard” is now a generic product made by many forest product companies.
So How Is It Made? Masonite is formed using the Mason method, in which wood chips are disintegrated by saturating them with 100psi steam, then increasing the steam or air pressure to 400psi and suddenly releasing them through an orifice to atmospheric pressure. Forming the fibers into boards on a screen, the boards are then pressed and heated to form the finished product with a smooth burnished finish. The original lignin in the wood serves to bond the fibers without any added adhesive. The long fibers give Masonite a high bending strength,tensile strength, density and stability. Unlike other composite wood panels, no formaldehyde-based resins are used to bind the fibers in Masonite.
So What Is The Problem? On the outset, there is no problem. However, masonite swells and rots over time when exposed to the elements, and may prematurely deteriorate when it is used as exterior siding. In fact, in 1996, International Paper (IP) lost a class action suit brought by homeowners whose Masonite siding had deteriorated. The jury found that IP’s Masonite siding was defective.
LP® SmartSide® products deliver all the warmth and beauty of traditional wood, plus the durability and workability of engineered wood. The SmartGuard® manufacturing process actually improves upon nature, creating products that are engineered for strength, performance and protection against fungal decay and termites. The LP SmartSide family features four distinct product collections, all backed by an industry-leading 5/50 Year Transferable Limited Warranty.
So How Is It Made? The manufacturing process of SmartSide ensures that all LP® SmartSide® products deliver outstanding strength and durability. The process begins with either wood strands or wood fiber. A zinc borate compound is then applied throughout the substrate to help protect against fungal decay and termites. Superior exterior-grade resins are used to create extremely strong bonds within the product. LP SmartSide Panels with SilverTech feature a finish-grade radiant barrier that resists flaking and peeling. The panels also help reduce the sun’s radiant energy.
So What Is The Problem? There are a number of websites that boast “reviews” by builders, contractors, etc. that claim SmartSide is little more than an OSB and that the panels warp, weather, shred, etc. What I personally have come to find though is that the material is only as good as the installation. When put up with improper care (screws instead of nails, no caulking, exposure to direct moisture, etc) SmartSide – while still quite smart – is subject to a bit of stupidity.
Initially we were most interested in LP SmartSide Panels with SilverTech for several reasons:
LP SmartSide products are made from wood – a renewable, natural resource.
The entire log is used in the manufacturing process. All wood waste is re purposed or used to help fuel the LP mills.
SmartGuard® manufacturing process utilizes zinc borate to help protect against fungal decay and termites which ultimately means less pest control and potentially toxic anti-bug sprays.
SilverTech coating acts as a radiant barrier.
Panels accept all water-based paints which means they accept zero VOC paints with ease.
Are strong enough to be attached directly to the studs meaning less material use and less weight on our tiny house trailer.
The three products mentioned above all have their appropriate arenas. And it should be noted that as building techniques and experience on the American front progressed so did the materials; strength, absorption rate, look, etc. Four years ago we chose to use LP® SmartSide® products because they made the most sense to us for all the reasons listed above. As of a few weeks ago the SmartSide® looked every bit as good as they did when we first applied them. The true important nature of this discussion however is that each dreamer, each tiny houser, each builder, each DIY’er, has to make their own decision about product integrity and product usability. We made ours and never looked back!
Durability, Quickness, Cost, Insulation . . . And More
There are many advantages of using engineered metal buildings, and companies like Bargain Structures Inc. have been reaping the benefits.
Bargain Structures , for example, has designed, built and installed carports, garages, barns, storage buildings, utility/combo buildings, industrial buildings and other custom structure
Prefabricated metal buildings are very durable. They are strong enough to withstand heavy snowfall, high winds, and strong earthquakes. The metal paneling can also be coated with aluminum compounds to prevent rusting and increase the life of the panels.
These engineered metal buildings are also non-combustible so it’s unlikely they will be destroyed by fire. This makes them perfect for storing hazardous chemicals. In addition to the durability, another benefit is the speed of construction.
Another benefit of prefabricated metal buildings is the quick assembly. Construction of a normal building takes at least a few months to complete. Engineered metal buildings are very quick and easy to erect. All of the drilling, cutting, and welding is done at the manufacturing site. The components are then sent to the construction site to be assembled. Besides the quick construction times, these buildings are usually cheaper than normal construction.
Prefabricated metal buildings usually cost a little less than normal buildings. The construction process with engineered metal buildings is usually not affected by delays like normal construction. Since the building just needs to be assembled, there are rarely any surprise cost increases. Also, these buildings can be assembled and erected by almost anyone, so labor costs are reduced and you save you time in the process.
One of the last benefits of prefabricated metal buildings is the insulation. The paneling is made so that they overlap when they are fitted together. This doesn’t leave any openings so that the building is insulated against outside conditions. This helps keep the building warmer in the winter and cooler in the summer, saving you on energy costs.
So as you can see, considering a prefabricated metal structures for your needs is a wise choice for these reasons and more.