The solid wooden floor is made of hardwood elements. The elements that form the solid wooden floor must have the four flat edges perpendicular to the face with maximum tilt between 0° and 3°.


    The name pre-finished engineered multi-layers floor is generally used to describe a series of wooden elements consisting of different layers, with tongue and groove joint on the sides and previously calibrated, sanded and lacquered before the installation. Highly innovative, the pre-finished floor consists of a valuable hardwood top layer that can be walked on and of a support, whose task is to hinder deformations due to the natural wood settlements and ensure extremely high resistance and hardness properties. The top quality of the processing and the specific surface finish, which is carried out through an industrial application of the lacquer, guarantee the product hardness, durability in time and waterproofing, in addition to very fast installation. Last but not least, the great beauty and extremely natural effect of pre-finished wooden floor make it a truly prestigious floor.


    As “single-layer ” or “solid wood” is intended a floor consisting of only one layer of the same wood species.
    The “multi-layers” or “pre-finished” engineered floor, on the other hand, is a type of wooden floor consisting of multi-layer elements made up of two or more layers of different wood species, including the hardwood top layer that can be walked on.
    Finally we can talk about “wooden floor” when the hardwood top layer is at least 2,5 mm thick.


    The standard of reference is UNI EN 13227.
    Mini strip consists of wooden strips without joints.

    Thickness from 8 to 10 mm
    Width from 45 to 60 mm
    Length from 250 to 300 mm

    The standard of reference is UNI EN 13227.
    The strip is different from the mini strip only regarding dimensions.

    Thickness from 12 to 14 mm
    Width from 65 to 75 mm
    Lenght from 350 to 500 mm

    The standard of reference is UNI EN 13226.
    The plank with tongue and groove has a deep cut along one side and one edge, called groove. The other side and the other edge have a jutting element, called tongue, that has to be inserted into the groove of another wooden plank to create a tongue and groove joint.

    Thickness from 14 to 15 mm
    Width from 75 to 90 mm
    Length from 500 to 900 mm

    The plank and the wide plank with tongue and groove have a deep cut along one side and one edge, called groove. The other side and the other edge have a jutting element, called tongue, that has to be inserted into the groove of another wooden plank to create a tongue and groove joint and make easier the junction to the other wooden elements.

    Thickness: 22 mm and 24 mm
    Width from 80 to 100 mm and from 100 to 140 mm
    Length from 600 to 1200 mm and from 800 to 2000 mm

    It is a small board made of fir wood with trapezoidal section of variable length, selected according to the specific application needs, into which flooring strips are nailed and fixed.

    The standard of reference is UNI EN 13488.
    Consisting of a set of wooden pieces forming simple geometric patterns.

    The standard of reference is UNI EN 13489.
    One element consists of a hardwood top layer at least 2,5 mm thick and of a thicker supporting layer. Pre-finished wooden floor is sold already lacquered, consequently, it is ready to be installed.

    What are the advantages of choosing a pre-finished enginereed wooden floor? Certainly a fast installation and the immediate use of the floor, since this type of wooden floor can be walked on after just a few days after the installation. Furthermore the pre-finished engineered wooden floor offers incomparable stability thanks to the plywood support. In case of humidity and contact with other external agents, the pre-finished elements can swell or cup, but there will never be a gap between the elements, since there is another wood layer as support.
    Pre-finished wooden floor is available also unfinished to give the chance to realize customized finishings on site.

    Industrial parquet consists of highly resistant wooden strips, arranged and glued vertically one next to the other, and then compacted into blocks. These blocks are made of different types of wood and mixed fibres, which is why they are characterized by contrasting colours and shades, special decorations. Obtained from the scrap of traditional floors, they may contain processing defects, stains, parts of sapwood and large knots, black holes, silicon, etc. After being laid on the ground, the blocks are sanded, stuccoed and refinished. Precisely because it can be sanded again and again as time goes by, industrial parquet lasts longer: thanks to its excellent resistance and durability, it is especially suited for floors in environments subject to stress and intense treading: offices, warehouses, sports facilities and, as of recent years, even private houses.

    Thickness from 14 to 20 mm.



    The traditional parquet sizes include:

    • Lamparquet: 
    Thickness from 8 to 10 mm
    Width from 45 to 60 mm
    Length from 250 to 300 mm

    • MF small strip: 
    Thickness from 14 to 15mm
    Width from 75 to 90 mm
    Length from 500 to 900 mm

    • MF large strip: 
    Thickness 22 mm
    Width from 80 to 100mm
    Length from 600 to 1200 mm

    • Maxi strip: 
    Thickness 24 mm
    Width from 100 to 140 mm
    Length from 800 to 2000 mm


    As far as it concerns the counterbalancing, Berti decided to make the pre-finished floor more stable, applying to the top wood surface layer a crossed multi-layer birch wood support. The birch wood is a more valuable material comparing to the average, and this is the reason why we have chosen this type of wood.
    This construction characteristic ensures the highest stability, the absence of cracks and a parquet floor completely resistant to torsion.

    Berti Wooden Floors produces the following typologies of pre-finished:

    • Basic Pre-finished 9.5
    It consists of a hardwood layer, 3.5 mm thick, and of a supporting bottom multi-layer of birch plywood 6 mm thick, made of a very particular structure with 5 cross-layers which guarantee maximum stability to this product.

    HARDWOOD 3.5 mm
    BIRCH PLYWOOD 6.0 mm
    WIDTH 63 – 70 mm 83 – 90 mm 110 – 125 mm
    LENGTH 400 – 600 mm 600 – 1200 mm 600 – 1600 mm

    The Pre-finished Basic finishing has a special “scraped” effect, which represents a middle way between the Pre-finished Lux and the pre-finished Antique.

    • Pre-finished Lux and Antico 10.5
    Consisting of a hardwood layer, 4.5 mm thick, and of a supporting multi-layer of birch plywood, 6 mm thick, made up of a particular structure of 5 cross layers, which guarantee maximum stability to this product. When the element size increases, the same happens for the plywood layer: this balances the natural wood settlement.

    HARDWOOD 4.5 mm
    BIRCH PLYWOOD 6.0 mm
    WIDTH 63 – 70 mm
    LENGTH 400 – 600 mm

    • Pre-finished Lux and Antico 13.1
    Consisting of a fine top wood layer, 4.5 mm thick, and of a supporting bottom multi-layer of birch plywood, 8.6 mm thick, made up of a particular structure of 7 cross layers, which guarantee maximum stability to this product. When the element size increases, the same happens for the plywood layer: this balances the natural wood settlement.

    HARDWOOD 4,5 mm
    BIRCH PLYWOOD 8,6 mm
    WIDTH 83 – 90 mm
    LENGTH 600 – 1200 mm

    • Pre-finished Lux and Antico 13.1 Maxi Planks
    Consisting of a fine top wood layer, 4.5 mm thick, and of a supporting bottom multi-layer of birch plywood, 8.6 mm thick, made up of a particular structure of 7 cross layers, which guarantee maximum stability to this product. When the element size increases, the same happens for the plywood layer: this balances the natural wood settlement.

    HARDWOOD 4,5 mm
    BIRCH PLYWOOD 8,6 mm
    WIDTH 118 – 125 mm
    LENGTH 600 – 1600 mm

    • Pre-finished Lux and Antico 13.1 Wide Planks and Wide planks “LARGE”
    Consisting of a fine top wood layer, 4.5 mm thick, and of a supporting bottom multi-layer of birch plywood, 8.6 mm thick, made up of a particular structure of 7 cross layers, which guarantee maximum stability to this product. The increasing of the element size is equivalent to the increasing thickness of the bottom layer which compensate, this way the natural wood settlement.

    HARDWOOD 4.5 mm
    BIRCH PLYWOOD 8.6 mm
    WIDTH 140 – 190 mm
    LENGTH 1000 – 2500 mm

    WIDTH 200 – 300 mm
    LENGTH 1000 – 2500 mm

    • Pre-finished 3-layers 14,6 Wide planks and Wide planks “LARGE”
    The pre-?nished 3-layers, consisting of a large size of wide planks featuring an outstanding stability, is composed of a top layer 4,3 mm thick, a middle layer of birch plywood (WGE) made of 5 cross layers 6 mm thick for the tongue-and-groove joint and a hardwood counterbalancing layer 4,3 mm thick. This product is ideal for the glued installation on the sub-?oor and also for the ?oating one, which consists in the laying on an acoustic foam mat underlay and gluing of the planks only in the tongue-and-groove. This particular installation method allows to cover sub-?oors not suitable for a glued installation, but also pre-existing ones, without impairing them irreparably with glue or other materials.

    HARDWOOD 4,3 mm
    WIDTH 140 – 190 mm
    LENGTH 1000 – 2500 mm

    WIDTH 200 – 300 mm

    The difference between the pre-finished Lux and the pre-finished Antique is found in the finishing: while in the ‘Lux’ the varnish imparts a “mirror” aspect, in the ‘Antique’ the polishing makes the surface look antique.



    The hardness of wood indicates its resistance to penetration of the element load placed on a face of the element (said screen test). It is determined by following the procedures and instructions set out by standard UNI EN 1534 – Determination of resistance to penetration (Brinnell).

    The Brinnell hardness is determined by the entity of the load mark identified in the wood. Less is the entity of the mark, more is the hardness of the wood, and therefore more resistant and enduring is the floor.

    It is important to consider that the wood is a “live” material and its structure, shaped by nature in the course of the years, is not consistent: for this reason the screen test Brinnell is performed various times in each type of wood.

    Dimensional stability, on the other hand, indicates the changes in wood volume as environmental humidity and temperature values change. Dimensional stability is calculated by applying the test method established by standard UNI EN 1910 – Determination of dimensional stability.


    The laying geometry is the pattern created by the positioning of the individual elements that make up a wooden floor. The final result depends on several factors: size of the wooden pieces, choice of geometric or non-geometric mosaics, creativity in combining elements. The reference standard that specifies the main and most common laying geometries is UNI EN 13756 – Wood flooring – Terminology.

    In irregular bridge deck laying, also known as ship’s deck or running laying, the wooden strips have the same width but random length. The resulting effect creates a floor with an unsymmetrical, original look.

    The pieces, of equal size, are arranged so that the head joints are in the same centre line, or in any case in a constant position compared to each strip that makes up the previous row. This means that the parquet is laid in a regular, symmetrical pattern.

    The pieces, rectangular in shape and of equal size, are laid at a 45-degree angle with respect to the walls. The pattern of the parquet resembles the bones of a fish; hence the name.

    This is the finish of the floor perimeter. It consists of wooden pieces with a different laying pattern (fascia) compared to the predominant pattern (central rug) and of other pieces positioned as a connection element (bindello) between the different laying patterns. In this parquet laying pattern, different colours can be used for the band and the connection element, to highlight the different parts of the floor.

    Each individual piece has two short sides cut with a 45-degree or 60-degree inclination with respect to the long sides. The laying method is the same as the herringbone laying. Here again, different timbers can be used to highlight the two areas of the floor.


    The finish is the treatment of the surfaces of semi-finished parquet using varnish or an penetrating sealer. Used to protect, customize the colour or enhance the decorative characteristics of the selected wood species, it also indicates the calibration and sanding operations carried out before the aforementioned treatments.


    Berti pre-finished floors are supplied already lacquered. The peculiar finishing technique of the hardwood top layer consists of:
    • 6 primer coats for the pre-finished LUX, applied with the roller (about 90/140 grams per square meter), followed by a curtain coat finishing (about 100 grams per square meter);
    • 4 primer coats for the pre-finished ANTIQUE, applied with the roller (about 70/100 grams per square meter), followed by a curtain coat finishing (about 80 grams per square meter);
    • 4 primer coats for the pre-finished BASIC, applied with the roller (about 90/120 grams per square meter), followed by a curtain coat finishing (about 80 grams per square meter).
    This guarantees the product with an outstanding hardness and wear resistance, making the floor practically eternal. The drying of the lacquer in special UV Rays ovens makes the Berti pre-finished a functional floor and ready to walk over just after the installation. It is an ecological product because the solvent emissions, which are in the finishing products, are carried out inside the ovens, safeguarding this way the human health.

    Waxes used on wooden floors are made with synthetic and natural waxes, mainly dissolved in mixtures of solvents or dispersed in water. Available in the form of more or less viscous pastes, or in fluid dispersions, they are see-through or slightly coloured to provide special nuances or shades to the treated wood.
    The main feature of a wax treatment is that it does not form a uniform film over the surface of the wood, respecting its natural look. This treatment offers limited protection, consequently it has to be repeated in time.

    Oils used to treat wooden floors consist of mixtures of natural drying oils, mixed with waxes and resins of a various nature. Usually dissolved in organic solvents, they can also be dispersed in water. Their hardening occurs through both the evaporation of solvents and through a chemical reaction with the oxygen in the atmosphere, and it is generally accelerated by using suitable additives made with metallic salts.
    The oil treatment does not form a film on the surface but instead causes a sort of impregnation of the wood, respecting and enhancing its natural appearance.


    The wood has dimensional characteristics that depend on its hygrometric layer, that is its humidity level, which in turn depend on the environmental conditions where it is stored.
    In fact, it has been proven that temperatures over 22 degrees and environmental humidity below 45% can cause unsightly deformations in the wood that, in the most serious cases, may even cause certain parts detachement.

    Optimal conditions for perfec maintenance of the properties of parquet floors are a temperature included between 18 and 21 degrees and a humidity percentage of the air included between 45% and 60%: this environmental hydrometric interval provides comfort and physical well-being to people living in the rooms, in addition to beauty and stability of the wooden floor.


    The humidity level of a parquet floor on delivery is a very important parameter, for which formal standards are set. The law requires a humidity level between 7% and 11%.
    At Berti, the drying procedure used on the hardwood layer of pre-finished parquets produces strips with a humidity percentage of 6/8%. The humidity level of the plywood is 10/12%. When pre-finished parquet is pressed to obtain the product sold to our customers, a stabilisation process takes place, providing humidity percentages which compensate each other and stabilise at levels up to the 10% threshold. No Berti products ever exceed a humidity percentage of 10%.
    This guarantees an excellent quality product.


    Parquet floors can be laid on top of a cement screen, on panels wood based, on pre-existing floors or on nailing strips.

    The screed, which must be at least 40 mm thick, is made with regular or quick-setting cements. Drying times of regular cement vary from 4 to 7 months or longer, depending on the products used and on environmental conditions. The drying times of quick-setting cement, on the other hand, vary from 3 to 7 days: in this case, the humidity check must always be carried out using a carbide hygrometer. Whatever the case, regardless of the foundation time, it is required by law to apply polyethylene sheets folded over along the walls in order to create an effective vapour barrier.

    If, on the other hand, the parquet floor is laid on top of pre-existing floors, it is important to make sure that these floors are in good condition, perfectly washed and grease-free, sandpapered in case of ceramic or marble floors or stuccoed in case of an old parquet floor. For carpeting or linoleum, after removing them it is recommended to eliminate any glue residue by carrying out a light sanding.


    To stabilise and dry the screed effectively, after a proper seasoning, a preheating cycle is essential. As well as drying the screed, this procedure checks that its structure will withstand the highest possible stresses, ensuring that future thermal shocks will not damage the surface of the wood floor.
    There are no disadvantages in using the pre-finished parquet on underfloor heating systems, however it is important to take into consideration that the wood floor is subject to shrinking and adjustments.

    Before laying the wooden floor, it is essential to follow the listed solutions below, in order to execute the pre-heat cycle:
    1. Activate the underfloor heating system, gradually increasing the temperature up to 5°C per day until reaching the limit of 35°C (called operating temperature);
    2. Leave the system on at operating temperature for at least a week;
    3. After a week gradually decrease the temperature up to 5°C per day until reaching the power off of the underfloor heating system;
    4. Once completed the cycle, it is possible to start laying the parquet with the underfloor heating power off and its surface temperature around 18-20°C;
    5. Once the wood floor has been installed, it is possible to switch on the underfloor heating system: once again gradually increasing the temperature of 5°C per day;
    6. Never exceed the maximum limit of 30°C for the heating fluid;
    7. Remember that once the system is operating, the surface floor temperature must not exceed the 25°C.


    The most suitable choice in terms of laying method is the glue down installation, so not to allow air spaces between the screed and the parquet boards (which would cause a heat loss).

    In the case of floating floor installation, it is appropriate to choose sheathings suitable for heat transfer.

    It is important to remember that the wood is a natural thermal insulation material: therefore, it is advisable to lay parquet boards 16 mm thick, in order to have an efficient heat transfer.

    È importante ricordare che il legno è un materiale isolante termico per natura: quindi come linea generale si consiglia di posare un parquet con uno spessore totale non superiore a 16 mm, per avere una trasmissione del calore efficace.


    You can proceed with the installation at any time, as long as the foundation is compact and dry, with humidity of less than 1.5%. Also, all the door and window frames have to be assembled and fully operational, masonry jobs have to be completed and the electrical and hydraulic systems must be working perfectly. Room temperature cannot be lower than 10 degrees, and relative humidity of the air has to be included between 45 and 60%. The laying and polishing of adjacent floors, in ceramic or other material, must also be completed, along with the finishing and painting of ceilings and the preparation of walls.


    There are three main techniques for laying a wood floor, which also vary depending on whether the parquet being used is traditional or pre-finished:

    • Floating technique
    • Laying by means of glue
    • Laying by means of nails/screws

    Floating parquet floors consist in a single-piece wooden surface simply laid on top of the support surface: made with pieces equipped with joints, glued one to the other by means of vinyl glue and usually large in size, they consist of three layers. More in detail, a vapour barrier and a layer that may have various functions, the most important one being soundproofing, is positioned between the floor and the parquet. In case of an under-floor heating system, the insulating layer has to have low thermal resistance in order to allow proper heat radiation.

    On the laying surface, a suitable adhesive is applied using a special spatula with triangular teeth; the glue is applied with wide half-circle movements so as to obtain what is known as adhesive lines, allowing proper contact between the adhesive and the support. In fact, it is important for the glue to be applied evenly. Too much glue or not enough can jeopardize proper laying of the parquet and cause defects in the application. Unlike the floating technique, the side of the strips is not glued.
    When using pre-finished parquet, it is important to choose the correct type of glue, to prevent warping of elements or incompatibility with the pre-varnished wood elements. Naturally, we cannot accept any responsibility in case of problems of this kind.

    This type of laying technique is typically used for multi-layer elements or solid elements with perimeter joint (large strips) and thickness of 14-15-22 mm. The elements are secured by means of nails or screws at a 45-degree angle, in the top part of the male and penetrating inside the support for at least 20 mm. This is why it is so important to choose the most suitable support, in order to provide for excellent fixing operation.



    All products sold and marketed on the domestic territory and intended for the final user have to have technical data sheets indicating, in the Italian language, clearly visible and legible information pertaining to:

    a) product legal or trade name;

    b) name or brand of the producer or importer established in the European Economic Community;

    c) materials used for the structure and for the cladding;

    d) presence, if any, of materials or substances toxic for man, objects or the environment;

    e) product maintenance and cleaning instructions, possible precautions and intended use for the purpose of proper product use and safety;

    f) product disposal instructions (optional).


    The branded BERTI wood flooring collections, are manufactured with the best raw materials, following production standards using the most advanced technologies together with the experience and know-how of our skilled people. Every Berti wooden floor undergoes a series of thorough quality controls to meet the high standards that indentify Berti wood flooring.
    All stages of the manufacturing process are carried out with care and accuracy to give the guarantee of a product that lasts over time. Berti products are eco-compatible: when you choose Berti, be sure to follow the principles of environmental protection. Berti’s values are the result of a mix of technology, aesthetics and design, respect for the environment, industrial processes and craftsmanship.
    Berti Wooden Floors is synonymous of reliability: the company has been on the market for over 40 years.
    Berti pre-finished engineered wooden floors are CE certified (reference standard EN 14342:2005 + AC:2008), they are subject to the strictest European standards for the environment and health. The products meet full satisfaction of the E1 class limits (re. UNI EN 717-1:2004 – equilibrium concentration of formaldehyde does not to exceed 0.1 ppm).
    Berti wood flooring boasts a formaldehyde concentration of 0.01 ppm, which is much lower than the legal requirements and widely within the limits foreseen for class E1 products. All engineered wood flooring are classified as Cfl-S1 class, in full compliance with the limits of reaction to fire standard EN 13501-1: 2007.
    In complementary work processing, such as UV lacquering or oiling and gluing operations there is no emission of solvents into the atmosphere thanks to the use of water-based lacquers.
    Berti Wooden Floors has chosen to point out the environmental protection. This is why we use birch plywood support, exploiting not only its incomparable mechanical properties, but also its higher efficiency in terms of forest regeneration and environmental sustainability.
    In the last year, Berti has adopted a series of measures for the health and safety protection of its workers to improve working conditions and reduce the likelihood of accidents.


    As written in our product data sheet that is supplied together with all Berti products: “During the installation of wooden floors do not use scotch tape on the floor in order to avoid damages on the finishing”. The bonding layer of adhesive tapes, which in most cases contains weak solvents that produce the typical layer of sticky tape, is responsible for a weakening of the lacquering. The lacquer on the wooden floor could be partially removed, taking away the scotch tape. For this reason it’s better to avoid applying scotch tape on parquet.


    Oxidation is a completely natural phenomenon caused when the parquet is exposed to light. Its extent depends on the type of timber chosen, with varying degrees of change in the wood floor’s colour. Usually, oxidation is more noticeable in exotic timbers (such as Teak, Doussiè and Iroko). The wood generally becomes darker and its vein patterns more uniform. The speed and intensity of the oxidation depend on the brightness of the light to which the parquet is exposed and the finish applied (the use of different types of varnish may either enhance the colour and oxidation or limit it considerably). The duration of the oxidation process also varies; it may continue for several years, although it will be slower after the first few months.
    Once the furniture is moved, the parquet which has been in the shade will quickly turn the same colour as the parts exposed to the light.


    Oxidation duration of parquet floors depend on the selected wood type.
    Doussié, iroko, teak and afrormosia (African teak) oxidize faster.
    Furthermore, during the oxidation process the amount of light is extremely important, and it is directly proportional to the oxidation speed.
    In order to make the colour of parquet floors more even and warmer, we nevertheless recommend letting the entire surface oxidize thoroughly before you position rugs.


    The certification and CE marking must be affixed by whoever launches the product on the market, be it the manufacturer, in other words the one that materially manufactures the product, but also the company that imports or resells the product under its own brand and its own trade name. The latter, for labelling purposes, also becomes a manufacturer for all intents and purposes and it is consequently totally responsible for the brand and for the product.

    In order to add the CE marking to a parquet floor, the manufacturer has to verify product conformity, adhering to a set of criteria and performance characteristics dictated by European Regulations.

    The performance characteristics are:

    • Reaction to fire
    • Release of formaldehyde
    • Emission of pentachlorophenol
    • Bending strength
    • Slipperiness
    • Thermal conductivity
    • Durability in time



    The PEFC is the Programme for the endorsement of national forest certification schemes. It is a certification scheme for the sustainable forest management at a national and regional level. The participants to the development of such programme are the representatives of the forests, the poplars owners, the end consumers, the users, the freelancers, and the industrial world of wood and crafts. The main goal of such programme is to improve the image of the forestry and the forest–wood productive chain, supplying a promotion tool that allows to market wood and forest products coming from woods and plants managed in a sustainable way.

    The PEFC system allows to guarantee:
    • the sustainability of the management of woods;
    • the traceability of wood and paper products, marketed and transformed, coming from the PEFC certified woods.


    Formaldehyde is a pollutant that is defined as ubiquitous, because it is found practically everywhere: in the city and along the road due to traffic, in homes and offices due to cigarette smoke, in furniture, since it is contained in chipboard, in plywood and in glues, and in foodstuffs, cosmetic products, packaging materials and glue used in books and magazines.

    A law decree was issued on December 11, 2008 which enacted extremely strict rules concerning the manufacture, import and launch on the market of wood panels and artefacts, both semi-finished and finished products, containing formaldehyde. This includes wooden floors. According to this decree, companies cannot sell products whose equilibrium concentration of formaldehyde exceeds a value of 0.1 ppm (0.124 mg/m³), which corresponds to the limit set for class E1.

    All Berti products respect the legislation provided by Law concerning the limits allowed for the formaldehyde concentration.


    For parquet, resistance to thermal conductivity should not exceed about 0.17 mqK/W.
    Thermal conductivity should be considered for ideal laying conditions, since the screed should comply with the best compactness and thermal conductivity criteria. This is particularly true in the case of floating floors, since the calculation of the element’s thermal conductivity may also contribute to the creation of any deformities such as size distortions, cracks and separation of the glued bond between the facing layer and the substrate.

    The thermal insulation of a building is often underestimated. When designing a building, the choice of the most suitable insulation takes for granted an indicative knowledge of physics principles applied to construction. Here are some basic concepts.

    The ability of a specific construction material to accumulate heat is calculated through its specific thermal capacity c (J/kgK); the greater this ability, the more the material is capable of accumulating heat.

    Thermal conductivity l (W/mK), on the other hand, is the ability of a material to conduct heat. Coefficient I indicates the amount of heat that flows through one square meter of material 1 m thick, with a temperature difference between indoors and outdoors of 1 K (Kelvin degree). Insulating materials have a coefficient I of less than 0.1W/m*K.

    Lastly, transmittance U (W/m²*K) represents the heat flow yielded by an indoor environment to the external air, through a surface area of 1 square meter and a temperature difference of 1K (Kelvin degree). When we talk about transmittance, we are referring to a stable condition, in other words constant indoor and outdoor temperatures. The smaller the coefficient U of a certain structural element the smaller the thermal dispersions and the better the insulation.


    It is recommended to avoid laying a parquet floor next to a rigid surface that may paralyse the natural movement of wooden elements. This is why it is so important to provide a expansion joint along the entire perimeter of the room, positioning shims in the starting phases and wedges in the closing ones. You can also use special clamps and straps. This operation should be carried out especially when large elements are being laid. 


    Floor coverings for sporting facilities must meet guaranteed high quality standards, with methods that involve flexible substructures to allow adaptation to any facilities a gym, a sports arena, outdoor sporting facilities, etc. There are many different types of sports floors, but if the choice is to be a sports parquet that meets the criteria of professionalism, safety, durability, easy restoration, reuse and low environmental impact, the most suitable type for meeting the needs of architects and end users is pre-finished parquet. Pre-finished parquet delivers the best compromise between performance and safety, helping to maintain a healthy indoor environment, without static electricity.

    In order to offer the best performance sports facilities flooring has to have certain general characteristics, listed here below:

    • Stability
    • Uniform bending and oscillation
    • Ultimate strength
    • Controlled slipperiness
    • Safety in case of falls
    • Good thermal insulation
    • Resistance to dirt
    • Easy marking of the courts
    • Non-deforming
    • Low management costs


    Decking or parquet for outdoor use, is perfect for paving terraces and gardens, swimming pool areas, gazebos, beach boardwalks. Remarkably resistant, it can be laid on top of existing floors and proves to be especially tough even when it comes in contact with the ground or with water. It does not require any special treatment: to prevent colour changes caused by constant exposure to the sun, special natural oils are used. Thanks to the knurl processing of the strips, decking is not slippery, even when it is wet. Thanks to its inherent characteristics of durability, hardness, flexibility, renewability and beauty, wood is the ideal material for outdoor floors, and the best solution in “extreme” environments that require specific technical performances. Teak, Iroko, Thermo-Treated Ash, Ipè and other wood species, especially South American ones, are commonly used for outdoor wooden floors.


    The visual test of the floor is performed, as shown in the UNI CEN/TS 15717, observing the floor following the below procedure:
    – Stand in an upright position
    – With the help of diffuse natural light, coming from behind the observer

    To identify and evaluate the presence of imperfections on the floor surface, sources of artificial light directly pointed to the floor, must not be used in any case.