Many people quite rightly seek out solid hardwood flooring as the best means to add certain warmth, class, and an atmosphere of homey comfort to an interior. But, as many find out, hardwood flooring can have limitations in areas that are prone to climatic changes; when it is humid or damp, an unfortunate effect in hardwood is often the swelling or cupping of the hardwood flooring boards. When looking to invest in long-lasting and attractive flooring therefore, one of the things to look out for is a flooring material that is likely to respond to these sorts of environmental changes without losing any of its structural stability, or its attractiveness. A solution that many have discovered for versatility, attractiveness, and with a robust design noted for structural stability is engineered hardwood flooring. But what is engineered hardwood, and what makes it so resistant to the climatic forces which usually spell doom for solid hardwood flooring?
Engineered Hardwood Flooring: Anatomy Lesson
Engineered hardwood flooring is made up of two main elements: the top layer and the core. The core is made up of stacked layers of medium or high-density fiberboard, or sometimes plywood, which most often range from 3 ply to 7 ply construction. This stacking design acts as a means to allow the flooring to counteract the effects of humidity on the natural wood, allowing each board to expand and contract without warping or cupping. As you may guess, this makes for a hardwood floor that is suitable for an installation in an area that is not environmentally controlled, or that is characterized by higher levels of dampness or humidity, such as a basement installation. The top layer of engineered hardwood floors is a species of real wood. In this sense, engineered floors are as