Belda Flooring August 05th, 2017 - 18:48:45
Traditional tile installation requires many tools and lots of patience which have to be pre-set on the floor, cut down to size, then adhered to the floor using a strong industrial glue. They will not stick to every surface and frequently, a layer of floor base must be installed before the tiling work can begin. If the tiles are placed too close together, they can buckle, leaving unsightly bumps and lumps on the floor. If they are placed too far apart, there will be obvious gaps. If a mistake is made when laying down the tile, it is very difficult to fix as the tile is glued to the floor. The tile will have to be pried up, excess adhesive scraped, and the process started over. Laying traditional tile floors is a project that can take several days, to several weeks, to finish.
Of all the wood flooring, the most often installed is the parquet tile. They consist of square interlocking wood strips, held together with glues and/or metal wires. Often they come as single 6"x6", or multiple 12"x12" square tiles, about 1/4" thick. They are glued directly to the sub-flooring, and are strong enough to span small deviations in it. The wood is often prefinished, and requires little maintenance. Parquet floors are a cheaper alternative to strip flooring, providing the same warm, durable surface.
So, a top quality oak engineered flooring will look the same but will it actually last as long?. How long a floor will last is mostly down to something called its `wear layer`. The part of the floor that is classed as the wear layer is from the surface of the board down to the tongue and on a solid oak board this would be around 5-6mm. Now, the wear layer on engineered wood flooring is the top layer of oak. So if you purchase an engineered oak flooring which has a 5-6mm solid oak top layer it will result in the flooring lasting just as long. In conclusion if you want an engineered flooring that is going to last as long as a traditional solid oak floor then make sure it has a nice thick top layer of wood, ideally 5mm+.
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.