How Porous a Tile is Can Be Important For Home Installations
Tile porosity is a key consideration that should always be taken into account. How porous a tile is can be important when planning to install tile in a home or business. As with tile hardness, tile porosity can have a big impact on how well a room handles a particular type of flooring. In essence, this measure of a tiling material is calculated by the ratio of solids in the title to accompanying air holes. This is an important aspect of overall tile quality as it can have a direct relationship to how much water a particular material absorbs.
A Flooring Material With This Classification is Highly Resistant
Those who are planning on installing tile in areas that are prone to moisture like kitchens and bathrooms should pay particular attention to porosity ratings. For example, one particular type of porosity classification is known as impervious. This simply means that a flooring material with this classification is highly resistant to water absorption. As a matter of fact water absorption levels will be half a percent or less. Conversely, vitreous flooring materials will be somewhat more absorbent. They can be expected to absorb anywhere from half a percent to 3% in terms of moisture.
Making The Right Choice in This Regard
Other classifications, when it comes to tile porosity, include semi vitreous materials. Most semi vitreous materials will typically absorb between 3 to 7% in terms of moisture. Finally, non-vitreous materials are highly absorbent and will absorb in most cases greater than 7% in terms of moisture. Materials that are non-vitreous should not be used for any type of conventional flooring purposes. Whatever the case may be it is always a good idea to take into account how porous a tile is when planning home installation. At the end of the day, making the right choice in this regard can save homeowners time, trouble and money. Contact Timberline Discount Flooring today to learn more about quality Houston flooring products that always look great.