Installing wood floors in kitchen will instantly improve the beauty of your kitchen space with its classic and durable quality. It’s especially true once you go for the high quality hardwood, which will never go out of style. Even so, before you finally start installing the beautiful hardwood floor in your kitchen, there are some important things you need to know first.
Hardwood flooring, unfortunately, doesn’t stand up to the moisture well. Meanwhile, it’s common for a kitchen to form moisture—a dropped pot of pasta, kitchen faucet overspray, or broken glass of water. In addition to that, the kitchen tends to have a high foot traffic. This is why floor sealant should always present for an impermeable barrier to protect the hardwood floor from moisture.
You can address to this problem and make sure the hardwood floor will work in your kitchen by site-finishing the wood instead of installing the pre-finished hardwood. His refers to the unfinished hardwood flooring to install and apply the sealer and stain (if desired) only after the installation is done. Site-finished wood thus will provide protection through a thin yet cohesive later of sealant, extending across the whole floor area to fill in the seams. Alternatively, opt for the engineered wood floor instead. This type of flooring has a veneer of real hardwood atop stable plywood. Even when water gets below the floor surface, engineered hardwood floor will resist it really well.
If you’ve been wondering whether it is even possible to install hardwood flooring in kitchen, the answer is yes. Even so, this isn’t a fitting solution for you who prioritize practicality in the kitchen. Wood flooring will always deliver that distinct classic look, regardless of what kitchen design style you pursue for the room. Even though site-finished hardwood flooring is a more recommended than pre-finished one, you can still opt for installing the latter as long as you take safety measures about spills and understand completely that a pool of water on the surface eventually will work its way through the surface.