Aveline Flooring July 31st, 2017 - 18:35:31
The manufactured joist, which is a relatively new product, is often manufactured from low cost materials in the shape of an I beam, similar to steel beams in larger buildings. What this means is that the joist is constructed with a thicker top and bottom edge, and generally interlocking aspenite vertically spanning between the two. These systems are very strong, often capable of spanning the entire width of the building.
Let`s move onto another reason why engineered wood flooring is now classed as a superior product to a solid oak floor. The main reason why people will go for an oak floor is that they love the timeless natural beauty that European oak has to offer. What many people are unaware of is the fact that the top layer of a good engineered oak flooring is the same quality European oak as you would find in solid oak flooring. This means that when it has been laid it looks and feels just the same and more and more customers are saying they prefer the look of the longer and wider boards that many engineered wood floors offer.
The third variable is installation costs. Our engineered product has labor savings over our solid wood product because it is pre-sanded and milled to tighter tolerances. It is also prefilled in the holes and has next to zero waste. On the other hand you may have a little more in cost of gluing it down in addition to nails, but this is just a step in direction of better quality and peace of mind during the install.
One drawback is that this type of floor requires special hanger systems designed for the joists, to enable them to be hung from each other or against beams/bearing walls. Manufactured joists are becoming a popular flooring system, for they are relatively cheap, reduce labour time and provide adequate support. However, builders need to familiarize themselves with its installations, for poor installation can cause severe structural damage to the joists. A good example is a three point, center bearing joist, left with the top chord uncut, which can potentially fail or pull apart, over the center bearing point.