Thermal Break Profiles

Thermal break literally means thermal break, which is used in the aluminum door and window industry to create a layer between aluminum profiles that prevents the energy loss of aluminum doors and windows. This hard piece, which is called polyamide rubber, Two profiles are sewn together.

Polyamide rubber has a very high heat resistance (up to 220 degrees Celsius).

For sealing and ventilation of thermal break aluminum doors and windows, EPDM gaskets with high quality and life are used, which protect the doors and windows from dust and water entering the building. Also, a layer of polyamide used in thermal doors and windows, thermal break, provides the possibility of two-color aluminum profiles for more beauty.

What is a thermal break double-glazed window?

Thermal Break double-glazed door and window is one of the latest achievements of the world’s aluminum industry, in which the installation of EPDM insulation has connected aluminum profiles from the outside to the inside. This method allows us to differentiate the color of the inside of the place of use with the color of the profile of the outer surface. Another feature of this product is 100% insulation of the interior of the building. It should be mentioned that thermal break, while being beautiful and stylish, also has all the features of PVC windows.

For sealing and ventilation of thermal break aluminum doors and windows, EPDM gaskets with high quality and life are used, which protect the doors and windows from dust and water entering the building. Also, a layer of polyamide used in thermal doors and windows, thermal break, provides the possibility of two-color aluminum profiles for more beauty.

What is a thermal break double-glazed window?

Thermal Break double-glazed door and window is one of the latest achievements of the world’s aluminum industry, in which the installation of EPDM insulation has connected aluminum profiles from the outside to the inside. This method allows us to differentiate the color of the inside of the place of use with the color of the profile of the outer surface. Another feature of this product is 100% insulation of the interior of the building. It should be noted that ordinary aluminum windows are resistant to atmospheric elements, but since aluminum is a good conductor, it wastes energy. To solve this problem, a new product called aluminum thermal break window has been introduced to the world, which creates a plastic layer between the inner and outer frame in these windows against heat transfer failure. The word Thermal Break means thermal break. These windows have thermal insulation, that is, they consist of two inner and outer frames separated by plastic insulation. In the past, aluminum windows transferred heat between the inside and outside of the house, but in thermal break windows, this problem has been solved due to the combination of polyamide and aluminum in their production.

Different types of aluminum doors and windows:

• Normal plain aluminum))

• Thermal Break Aluminum (Thermal Break))

• ALU Wood

According to the theory of the International Environment Agency:

Windows can waste up to 25 percent of the energy needed to heat a home, as well as 50 percent of the energy needed to ventilate it.

In general, the advantages of using a double-glazed aluminum thermal break window can be listed as follows:

• Waterproofing

• Insulation

• Sound insulation

• unflamable

• Eco-friendly and recyclable

• Resistant to air pollution and dust

• Resistant to wind pressure while light

• Extraordinary beauty, great and varied color variety

• Fantastic style

• Safe against theft and earthquake

• Resistant to discoloration and shape due to environmental factors such as sunlight, rain, weather

The result of using thermal break profiles is to prevent the transfer of cold and heat from the outer wall to the inner wall and vice versa. If thermal break system is used on doors and windows, 38% reduction of thermal energy loss in cold season and 32% reduction of refrigeration energy loss in hot season, 28% reduction of fuel consumption, 20% reduction of cost in initial investment of facilities and also to Significant amount of noise pollution is prevented.

In a double-glazed aluminum window, the connection strength is extremely high, relying on several common connections, especially bolt and rivet fittings, as well as punching using solid aluminum pieces. The fittings are attached directly to the aluminum metal.

Electrostatic powder paints with an extraordinary variety provide more than 250 different colors to consumers of aluminum profiles that are hardened in the furnace and are shock and cast. In addition, the variety and beauty of another coating and painting system, ie anodizing, can only be done for aluminum profiles. Aluminum profiles with printed colors and hardness in the furnace are doubly durable and beautiful.

Nowadays, the use of aluminum frames has become common due to its high ductility and lightness, because with the increase in the number of available glasses, it is necessary to reduce the weight of the building in some way, and therefore in this category, aluminum seems to be a suitable metal. Also, the use of insulation shutters in cold seasons will limit energy losses, especially at night.

In addition, the variety and beauty of a coating and painting system, ie anodizing, can only be extracted in aluminum.

Thermal break aluminum double glazed window system has met the needs of the construction industry by having a great variety in form, color and wide use of fittings and variety of opening.

Reduce the disadvantages of aluminum doors and windows over time:

Aluminum doors and windows, like any new technology that comes to reduce the disadvantages of its predecessors, have their own disadvantages that are corrected and perfected over time. Aluminum doors and windows are no exception to this rule.

First Generation: The first generation of aluminum doors and windows were in fact semi-aluminum semi-metallic because they were connected by rebar and it was practically impossible to double-glazed doors and windows.

Second generation: The second generation of aluminum doors and windows were developed in addition to the first generation to prevent thermal energy loss and practically covered the use of double-glazed windows in comprehensive aluminum frames.

Third generation: In this generation of aluminum doors and windows, the problem of high heat exchange between the interior and exterior of the building was solved and thermal break aluminum doors and windows practically entered the field of aluminum doors and windows.

Third-generation frames, more scientifically called aluminum profiles, are a rubber layer made of polyamide that practically shapes aluminum door and window profiles into double-walled ones. This polyamide layer is punched between two aluminum blades by press machines, which in addition to the advantage of reducing heat transfer, also prevents the entry of sound and is also considered as a kind of sound insulation. The polyamide rubber used in thermal break aluminum doors and windows are in fact compressed glass fibers that can withstand pressure and heat.