Lundy Flooring July 19th, 2017 - 20:09:33
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.
Strip floors, were once the most popular type of sub-floor installed. But with the introduction of manufactured sheathing products, it has become less utilized. Strip floors consist of 1" by 6" or 8" boards, placed diagonally over the floor joist framing system. It is slightly more expensive to install, and requires experienced tradesmen. To install such floors properly, the lumber should be non-kiln dried, with a relatively high moisture content. This may seem odd, but in reality, as the wood dries out, it will shrink.
So let`s start off this article with talking about the number 1 reason our engineered oak floors have the upper hand over solid oak floors, this being it`s stability. A quality engineered board will be made up of around 10 layers of multi laminated birch ply wood. These layers are stuck in opposite directions with a moisture resistant adhesive and this gives the floor an immense amount of stability. We have been asked before by customers who have researched the market how strong the adhesive is as they have heard of stories of engineered wood flooring de-laminating.
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.