Orlene Flooring July 12th, 2017 - 21:08:49
Working in the flooring industry we often have customers calling us because they are interested in a solid oak floor. More often than not we end up suggesting they go down the engineered route and then being asked the same thing, `why choose an engineered wood floor over a solid oak floor and does it really feel and look as beautiful?` We are writing this article to briefly outline the main advantages of our engineered wood flooring and why now so many people are choosing the engineered over the traditional solid oak flooring. Throughout this article I will write in reference to a top quality engineered oak flooring with multiple layers of ply wood under core and a thick, long lasting wear layer. I can not speak on behalf of all engineered wood floors as they differ massively in quality and price. In all cases you need to check thoroughly the specifications of the product on offer.
There are three main types of sub-flooring installed to cover and span the floor structure. It is over this that the finished floor will be placed. The sub-flooring types include raw sheathing, interlocking and strip. It is utilized not only to provide a surface for the interior finishes to be placed on, but also to prevent twisting or torque forces placed on the building. The sub-floor also allows load sharing within the joist framing system. Often the sub-flooring is glued to the joist work to eliminate creaking floors and to prevent the floor joists from turning.
Water is universal, natural and great for your body`s good health when used for bathing, having fun, consumed or combined with other minerals, compounds or elements - even to cook foods in. However, this awesome resource sometimes called moisture is not the least bit healthy for your wood floors. Water and moisture become tricky with mingling after milling and designing trees into a wooden floor. It`s like this -- when your wood floor gets wet, there is no way of knowing whether it will curl, bow down, shrink or expand once it dries again.
In the case of long span truss work, bearing lengths of at least 3" are quite common. Trusses span greater distances than framed floor assemblies and can be designed to span the entire building, eliminating center load bearing supports. They are moderately more expensive than framed floor assemblies, but provide a remarkably strong floor with little deflection or "bounce" to it. Another advantage to this type of structural system, is that utility installations can be run between the webwork components. Never allow trades to cut or drill into the members of a truss, for they are manufactured precisely for the loading conditions they will undergo during the life of the building.