In the realm of contemporary housing, Finnish technology is notable for its creative approach to building frame homes. This strategy places a strong focus on cutting-edge insulation methods that improve comfort and energy efficiency. The framework used in the construction of these homes is intended to support high-performance insulation materials, providing better year-round thermal regulation.
In contrast to conventional building techniques, Finnish technology incorporates state-of-the-art insulation materials that considerably minimize heat loss. This invention lowers heating and cooling expenses for homeowners by not just meeting but exceeding energy efficiency regulations. These homes provide a sustainable and cozy living environment by maintaining consistent interior temperatures through the use of materials like sophisticated vapor barriers and insulated panels.
The meticulous engineering of the wooden framework, created to exact specifications, is the first step in the construction of a frame house in the Finnish style. This framework allows for the seamless integration of insulation materials while also supporting the home’s structural integrity. Modern insulation combined with strong wooden beams produces a robust building envelope that reduces environmental impact and increases durability.
Beyond its practical advantages, Finnish technology is a living example of sustainability in the environment. Because of their environmentally friendly qualities, the materials used in these homes have a lower carbon footprint during construction and use. Because of this strategy, which supports worldwide efforts to promote sustainable living, homeowners who are concerned about the environment tend to favor frame homes in the Finnish style.
- Scandinavian technology for the construction and decoration of frame houses
- Features of the production and characteristics of Logicpir plates
- Video on the topic
- Vapor barrier of the walls of the frame house in Finland .
- Frame house according to Canadian or Finnish technology. Build yourself a house.
- How to build a warm frame house? / 5 Rules for building a frame house
- Insulation of the walls of the frame house in Finland .
- Frame house using Finnish technology: the wall of the house from A to Z: Rigel, MDVP, single racks
- How to warm frame houses in Finland? / How is the wall of the wall of the frame house?
Scandinavian technology for the construction and decoration of frame houses
The construction of residential buildings in Finland is influenced by a number of factors, including national customs and climate, the use of contemporary materials and technologies, and the preference for quality over rapid development.
In Finland, the majority of the structural components of buildings are traditionally designed, produced, and assembled in factories. The modules, which can only be installed on a pre-flooded foundation, are made by the workshops. They also frequently assemble, fit, and cut the modules.
The absence of "hiders" (a variation of the crossbar for releasing tension from the upper jumpers of windows and doorways), double racks, and indentations in the walls is one of the distinguishing characteristics of Finnish frames. One crossbar, which runs along the inner or outer side of the racks just below the upper strapping, provides the structure’s rigidity. Only in areas where there are significant wind loads during home construction are diagonal stiffness ugs installed.
The Finnish frame house’s nodes
The main purpose of the roof design is to support the rafter-farm on its own, allowing the attic’s interior space to be used logically.
A well-ventilated home requires high-quality windows, an insulated facade, and both of these features. These components work together to provide a genuinely comfortable home that also saves money on air conditioning in the summer and heating in the winter.
Traditional Scandinavian method suggests using:
- basic insulation. A layer of stone wool with a thickness of 100-150 mm is laid between the frame racks;
- Cross insulation. Another layer of mineral wool, but already with a thickness of 50 mm is placed on the stands of the frame inside the house;
- vapor barrier membrane between the main and cross insulation.
The new method of insulating frames is not like the old one.
- using ultramodern PIR stamps instead of stone cotton wool for cross insulation;
- the lack of a vapor barrier membrane between layers as an irrelevant material in this case.
It is possible to accomplish multiple objectives at once because of combined thermal insulation.
- Improving the energy efficiency of the house due to the use of PIR-plate with record low thermal conductivity, as a result, the cost of heating in winter and air conditioning in the summer decrease.
- The exclusion of cold bridges arising between the frame racks and the bar, which is used during insulation with stone cotton wool.
- Reducing construction costs due to the exclusion of a vapor barrier film from the total estimate. PIR slabs are sinking on both sides, and it is the aluminum foil that performs the function of protecting the insulation from condensate.
- Construction of environmentally friendly and completely safe at home. Pir slabs, even when heated, do not emit toxic components into the atmosphere, which is certainly important when internal insulation of the house.
- Saving free living space. Fifty-millimeter PIR pi-plots have the degree of heat saving no less than the minvat layer in two more thickness.
Benefits of the Logicpir plate
By the way! In Finland, the majority of homes have a separate steam room. We suggest Logicpir boards Bath from Technonikol for insulating the sauna in a frame home.
Features of the production and characteristics of Logicpir plates
Logicpir innovative insulation is carried out on a fully automated line, this excludes possible violations of the technological process. All components of the insulation are mixed under a pressure of 160 Pa, thus all the declared properties of the material at any point are guaranteed. From a special mixer, a polyurethane mixture is poured through the valves on a foil lining – an external contour of the insulation that protects both moisture and steam. The mixture foams, increasing in volume, and covered with a second layer of foil or the second lining contour. The process of growth of foam in volume is absolutely controlled, all plates are made strictly necessary thickness. The insulation turns into a solid plate in a laminator at a temperature of URA +70 ° C, here there is a baking of millions of cells filled with inert gas. This is how the unique low thermal conductivity of technology products is achieved.
One of the manufacturing phases
The cells’ compact size, long-term hermeticity, and capacity to hold inert gas inside are crucial for preserving the insulation’s stated thermal conductivity indicator over the course of its more than 50-year service life.
Employees of the technological laboratory perform quality control and technical characteristics (fire safety, geometric parameter stability during heating and cooling, strength, and thermal conductivity coefficient) of each batch of PIR insulation.
Logicpir’s technical specifications for insulation
Name of the indicator | Unit | Index |
---|---|---|
Thermal conductivity | W/(m*k) | 0.022 |
Compressive strength | KPA | 150 * |
Water absorption | % | 1.0 |
Operation temperature | ° C | -65. +110 |
*Logicpir plates with an increased compression strength indicator can be made upon customer request.
Plate geometric parameters with an L-crown Get your insulation in springtime.
Dimensions of one slab, mm | The thickness of the plates, mm | Number in packaging, pcs. | Insulation area, sq.M ** |
---|---|---|---|
1190 x 590 | thirty | 8 | 5.62 |
1190 x 590 | 50 | 5 | 3.51 |
** Calculating the necessary amount of material is not difficult if you know the area of insulation in a single package. In order to accomplish this, the entire area of the frame house’s interior walls must be divided into an area of one package. Only a greater number can be rounded to the final value.
For instance, if the walls total 100 kV.m and 50 mm thick plates are used as insulation, the total amount of materials required is:
Counting to the whole number, we obtain 29 from the Logicpir plate packages.
Using Finnish technology to build a frame home is a significant advancement in insulation techniques, offering unmatched sustainability and efficiency. Airtight construction is given priority in this creative method, which makes use of cutting-edge materials and methods to guarantee minimum heat loss and optimal energy efficiency. These homes provide long-term financial benefits to homeowners by concentrating on superior insulation, which significantly lowers heating and cooling costs.
High-quality insulating materials, like mineral wool or expanded polystyrene (EPS), are used extensively in Finnish technology and are integrated into the walls, floors, and roofs of frame buildings. This all-encompassing insulation approach improves thermal performance and helps create a cozy interior atmosphere all year long. Homeowners can anticipate comfortable interior temperatures and less dependence on HVAC systems, which will support both personal comfort and environmental sustainability.
Frame homes built with Finnish technology are renowned for their robustness and longevity in addition to their energy efficiency. Sturdy insulation and airtight construction work together to reduce the possibility of moisture seeping in and mold developing, extending the life of the building materials. Over time, this durability results in lower maintenance costs, giving homeowners a useful and environmentally friendly housing option.
To sum up, using Finnish technology in the construction of frame houses is a progressive method of creating homes. Modern insulation techniques are combined with environmentally friendly ideas to provide homeowners with increased longevity and comfort in addition to energy savings. Finnish technology is notable for its capacity to meet strict energy efficiency standards while offering a dependable and resilient living environment, particularly in light of the growing demand for environmentally friendly housing solutions.
Cutting-edge insulation techniques from Finland bring frame houses into the modern era. This approach guarantees greater thermal comfort, sustainability, and energy efficiency. Finnish technology solves long-standing issues in construction by fusing cutting-edge materials and design concepts, providing homeowners with a long-lasting and environmentally responsible answer for contemporary living. This article examines how these developments are changing residential facades to reduce their environmental impact and increase their resistance to extreme weather.