When we say plywood, we mean layers of wood. Plywood is a collection of wood layers that are pressed together. The thickness for engineered wood flooring is the same. Of course, with special conditions.
The bond between the inner layers makes the thickness for engineered wood flooring more durable and increases its lifespan. Therefore, engineered parquets are more economical than all-wood parquets. thickness for engineered wood flooring consists of at least three layers and each layer is pressed together with veins perpendicular to the veins of the next layer.
This layered structure increases the surface stability compared to all-wood parquet against bending, cracking, and twisting, and gives more strength to engineered parquet. How to produce engineered parquet has made them a good choice for use in various flooring.
The top layer is usually hardwood. This thin layer is made of wood selected by the buyer, to be both a protective surface and also to be exposed to aesthetics. Of course, the choice of the outer layer can be different depending on the customer's choice, from softwood to hardwood. The top layer of morphine parquet is obtained from two birch and oak trees, both of which are made of hardwood.
The thickness layer for engineered wood flooring makes them beautiful and makes them looks like all-wood parquets. The inner layers can be made of different materials such as HDF or hardwood, in addition to a few layers. In Morelos engineered parquets, the interior layers are also all wood. These inner layers stabilize the final product and also increase moisture resistance. All wood parquets are more sensitive to moisture.
1- Three different layers of thickness for engineered wood flooring
The surface layer of engineered wood parquets is produced in three different types in the parquet factory:
The surface of the timber is cut after drying. After cutting (wafers), it is pressed into a middle layer on the parquet. By adding this 2-5 mm layer to the original plywood thickness, the swan surfaces are more like hardwood than the veneer layer. Of course, this layer should not necessarily be added behind the parquet tile. As a result, the thickness for engineered wood flooring with the saw method, due to the thickness of the added layer, are more resistant to moisture and cracking than thin coatings.
The appearance of the sliced veneer is similar to the surface of all wood. Thin plates between 0.6 mm to 1.6 mm are cut with a special blade in the same direction as the saw blade. The slicing process does not produce sawdust. Therefore, it has the highest efficiency from raw materials and also makes it more compatible with the environment.
Sliced engineering parquet is unlikely to have a long life because it is limited to re-finishing. Because re-finishing requires re-sanding and this is not possible if the thickness of engineered wood flooring is too thin. Because the pad disappears. If the consumer wants to extend the life of the floor by re-finishing, the top layer is recommended by the saw method. Morphed parquets are made of oak and birch and both are obtained by layered methods.
The bark cover is separated from the tree trunk in layers using a special lathe. Such coatings are the thinnest layers of wood. Shell floors are usually moisture resistant. In addition, the thickness for engineered wood flooring is often stable because it often has three or more layers. If the floor is threatened by moisture, the parquet becomes sensitive and the color of the surface layer may be slightly different from natural wood.
Consumers who buy with enough information should decide well what thickness and multilayer are best for them. If the finish is high in UV and with aluminum oxide, it will have a long life and may not even need to be re-finished. Consumers who may decide to replace or refinish their veneer should opt for thick sawn parquet. Thicker veneers are a better choice if you are likely to sand the floor in the future. Many consumers are unaware of the thickness types for engineered wood flooring, but a familiar consumer will easily notice the difference between parquets.
2- Determining the quality of thickness for engineered wood flooring
Never judge parquets just by their appearance. The quality of engineered parquet starts from it and the first question that should be formed in the mind of the buyer is:
Is engineered parquet made of softwood and low-quality plywood?
Do its ingredients have high-quality polyhedral?
The lower the quality, the more likely it is that the layers will separate (or so-called delamination). If suitable raw materials are used in the construction of engineering parquets, it reduces the stress in the veneer press to the layers and increases its moisture resistance, and also increases the life of the parquet by increasing its quality.
After the internal compounds, the outer layer and the surface that is exposed to wear should be considered. Consumers should get as much information about veneers as possible. It should also be borne in mind that the quality of the coating should not be confused with the quality of the finish. Because appearance can be deceptive. Consumers should carefully observe the surface of the coating to be aware of any defects on it. A problem with the coating surface may indicate that it has already been exposed to moisture or other production problems.
If you suspect that you may need to refinish or repaint in the future, it is best to choose a thicker coating. Ask about the thickness of engineered wood flooring and the number of layers, as extra layers can protect the floor and extend its life. Morflora parquet with a minimum thickness of 12 miles is in the category of thick parquets in the market.
None of the parquets, even the engineered parquet, is completely protected from moisture, but the engineered parquets have a better advantage than the all-wood parquets. Of course, the plywood used in Morflora is selected from the waterproof family. However, being waterproof is not without ambiguity for any wood product.
Buyers should read the manufacturer's maintenance instructions and data sheets to help consumers understand potential product problems such as surface defects, warping, parquet crack-in, and layer separation.
3- Choosing thickness for engineered wood flooring
The connection of engineered parquets is either in the form of tongues or they can be glued to the substructure.
Engineered wood parquets have many finishes and are easily available. All engineered parquets are pre-finished in the factory.
The thickness of the outer layer and the quality of the underlying layer usually show themselves during the warranty period. The characteristics of the veneer layer should be considered because, for example, the thickness for engineered wood flooring can not be less than 2 mm and should not be sanded or re-finished.
On the other hand, if the thickness of the veneer layer is 6 mm or more, the floor can be sanded or re-finished three or more times. It is recommended that the thickness for engineered wood flooring has at least three layers with the direction of the veins perpendicular to each other. Five layers will have good stability even if the thickness of the coating layer is not too thick.
Remember that the coating layer or the layer is subject to wear to achieve a beautiful appearance and the inner layer for maximum strength and stability.
4- Advantages and disadvantages of engineered wood parquet
Experts in the field of flooring recommend engineered wood parquet because its advantages far outweigh its disadvantages. For this reason, engineered parquet has become the best choice.
Advantages of Engineering Parquet
- Moisture resistant
- To be economical
- Greater bio-sustainability
- Can be used in places where all wood parquet can not be used.
- Long life
- Ease of installation
- Proper stability against cushioning, warping and moving
- Increase the price of residential or office meters
- Comfort and luxury
While high-strength wood is used for the veneer, fast-growing trees can be used for the inner layers. For this reason, engineered parquets are more economical in terms of using primary resources.
Factory-finished finishes last longer than on-site finishes.
- The inner layers are made from renewable sources.
- Many water-based finishes do not contain any volatile organic matter.
- Free of formaldehyde glue
- It has exactly the feeling of the warmth of wood.
- Easy to install
Disadvantages of engineering parquet
It is cheaper than all-wood parquet but more expensive than laminate, tile, and carpet.
The top layer is thin and therefore can not be re-finished.
5- After-sales service of engineered wood parquet
In many cases, the service does not cover everything that may happen on the floor. Buyers should read the warranty text carefully to avoid any misunderstanding of the seller's description. Types of after-sales services for engineered parquet are:
Structural warranty: This parquet warranty means that the parquet is neither broken nor separated. However, it may include issues with incorrect installation and installation site problems that are not covered by the warranty.
Finish guarantee: This parquet guarantee includes that the finish does not reach the wood due to abrasion, but it may include exceptions such as pet paws and heavy furniture. It should also be noted that the finish may look like it has been worn, but in practice, it is not. Also note that the warranty is from the manufacturer, not the stores.
Tags: plywood, thickness for engineered wood flooring, all wood parquet, parquet factory, parquet flooring, parquet price, parquet warranty