Engineered Wood Floors and Their Benefits

Engineered wood floors resemble genuine hardwood floors in appearance. However, they often have three primary layers, with hardwood making up the top layer.

What sets it apart from solid hardwood flooring and laminate flooring is the presence of hardwood in a single layer; the former is composed of hardwood, while the latter has a photographic layer that gives the illusion of a hardwood surface. Engineered Wood Flooring are the best choice to buy.

Engineered Hardwood Flooring over Laminate Equivalents: Key Benefits

 Increased House Value

Engineered wood floors can increase the home’s value, just like hardwood floors. Contrarily, despite being preferable to carpeting or vinyl flooring, laminate flooring is not as highly appreciated and, if fitted with a particularly affordable variant, may even lower a property’s value.

Cost

Since producers frequently only utilize the most expensive wood for the veneer, engineered hardwood flooring can be a more affordable option.

This is in stark contrast to solid wood, which is more expensive because the entire board must be produced from the type of wood used.

Resilience

The typical lifespan of engineered hardwood flooring is 20 to 40 years, while some may even survive longer. Conversely, laminate floors often endure little more than 20 years.

 Installation Simplicity

Engineered hardwood flooring is typically seen to be simple to install, and this process may be carried out by a novice, especially if they use planks that can be click-locked. It is also frequently sold prefinished, which minimises the work needed to prepare it for houses.

Conversely, installing solid hardwood flooring is a little more challenging. If they are sold unfinished, the floor will need to be sanded, stained, and finished after installation.

Attractiveness

Solid hardwood surfaces’ aesthetic appeal can be achieved using engineered hardwood flooring. Also, install the former and experience the same aura of refinement as the latter alternative. The option will have a selection to match the home’s preferred design because it is also available in various colours and finishes. Engineered Wood Flooring Suppliers provide many attractive floors.

Despite having a wide variety of colour and design options, laminate flooring is distinct from real wood, despite being able to resemble it somehow.

Sanitation

Engineered hardwood flooring is perfect for pets since it won’t collect dirt, dander, or unpleasant floors the way carpet might.

Contrary to carpeting, which may not only contain those above but is also challenging to clean, it does not conceal many bacteria or parasites and can be cleaned immediately.

Therefore, it is a great choice if anybody in the household has allergies.

Plank Dimensions

Engineered wood would be a better choice. There is a wider plank available because these boards are frequently wider than solid hardwood and can reach widths of 7 inches, as opposed to the latter, which often has a maximum width of 4 inches. Engineered Wood Flooring Suppliers like ASC Flooringare experts in this field.

Sustainability

Engineered hardwood floors often utilise less wood (up to a third less) than solid hardwood floors since only their uppermost parts need to be produced from solid wood.

Because of its solid core, engineered hardwood flooring is a superior heat conductor. When installed, it uses less energy to keep the house warm than solid hardwood flooring.

Stability and Moisture Resistance

Engineered hardwood floors consist of a veneer, a core, and a base layer. The body comprises layers of wood that are placed at right angles to each other, and certain high-quality products may have as many as seven or even twelve layers.

This arrangement lends engineered hardwood floors a great degree of stability, making them less prone to warping in the presence of moisture.

Solid hardwood floors, on the other hand, are made of one single block of wood and, as a result, are less stable in this regard.

This means that they are more prone to crowning, cupping, and gapping due to being more susceptible to humidity.