Prefabricated houses are generally built on a platform and concrete floor. A concrete plan suitable for the needs of your structure is prepared by our expert team and presented to you.

The concrete plan suitable for the building you have chosen is prepared by our expert team and delivered to you.

Prefabricated houses can be built on zoned lands, and outside these areas, they can be constructed in line with the permissions determined by the relevant institutions.

The standard package includes kitchen fixtures.

OSB, moisture barrier, membrane, and glass wool mattress are used as roof insulation materials.

One of the most important features of prefabricated structures is their fast manufacturing and installation times. Although it varies on a project basis, average housing deliveries take 10-12 business days.

A zoning permit is required for prefabricated structures. To obtain a building permit, an application is made with a petition to the zoning unit of the municipality or the provincial special administration by the building owners or their legal representatives. The title deed, architectural project, static project, electrical and plumbing projects, pictures and calculations, and a staked-out or dimensioned sketch must be attached to the petition.

Prefabricated residences or workplaces are subject to the same taxes as reinforced concrete structures.

Yes, electricity, water, and natural gas can be connected to prefabricated structures. In places with village status, a subscription can be obtained by applying to the relevant institution with a permission letter signed by the village headman and two members of the council of elders. For procedures carried out with a municipal license, an application is made to the relevant institution by adding an occupancy report or a work completion certificate to the construction license.

Prefabricated structures can be built in accordance with the zoning plan, regulation provisions, license, and its annexes, pursuant to Article 20 of the Zoning Law.

The main load-bearing system of prefabricated structures is metal, and the exterior walls and partition walls are made of betopan panels.

Rock wool, EPS, or mineral wool are used for thermal insulation. For water insulation, membrane and moisture barrier are used in roof insulation.

Yes, a heating system can be installed in prefabricated structures.

All standard electrical and water installations inside the building are carried out by the manufacturer.

Bathroom materials are delivered with a shower tray, pedestal sink, floor toilet or wall-hung toilet, and all accessories.

In prefabricated buildings, exterior wall thicknesses are used as 6-10-14 cm, and interior wall thicknesses are 6 and 10 cm.

Prefabricated structures are produced taking into account the conditions of the earthquake zone.

Prefabricated buildings are designed by taking into account information such as wind speed, snow load, and rainfall rate in the region where the structure will be built, and are produced in light of this information.

Regular maintenance of prefabricated structures varies depending on the building material, environmental factors, and intensity of use. Generally, exterior cleaning and painting should be done at regular intervals; roof maintenance includes checking insulation materials, and electrical-water installations should be regularly inspected. Heating-cooling systems should undergo periodic maintenance, and the overall structural condition should be evaluated at regular intervals. These maintenance procedures are important for the long-lasting and safe use of the structures.

The permit and license procedures that need to be obtained from the municipality must be completed, and the ground concrete must be prepared in accordance with the building plan.

Prefabricated buildings are designed in accordance with a modular structure, and assembly-disassembly operations can be carried out by considering a loss of 10-20%. Considering the wear and tear of the structure, more than 6 assembly/disassembly cycles are not recommended.

The standard heights in prefabricated structures are 2.50 m, 2.80 m, and 3.00 m.

Prefabricated structures are buildings consisting of structural elements that are manufactured in a factory and then transported to the construction site for assembly.

Steel construction houses are structures whose main load-bearing system is made of steel, standing out with their durability and fast construction process.

Container structures are portable and modular building elements, usually made of metal or steel. Produced in standard sizes for transportation, these structures can be used as temporary shelters on construction sites, in disaster areas, and at military bases, as offices, shops, or warehouses in commercial areas, and even as housing. Containers offer practical solutions for various needs with their rapid installation, low costs, and easy portability.

Fast construction time, cost-effectiveness, durability, flexibility, and being environmentally friendly are the main advantages of these structures.

The assembly time varies from a few days to a few weeks, depending on the size and design of the house.

The installation time generally varies from a few weeks to a few months.

The assembly of container houses can be completed within a few days to a few weeks.

Prefabricated construction site buildings are pre-manufactured building solutions used temporarily or permanently on construction sites, in industrial facilities, mines, and emergency projects.

Prefabricated construction site buildings offer advantages such as fast assembly, portability, low costs, production with environmentally friendly materials, and reusability.

Prefabricated construction site buildings, generally installed on steel frames, have features of high durability, lightness, and easy portability.

The assembly process is carried out by bringing together ready-made parts, and the installation time may vary depending on the structure, but it is usually completed in a short time.

Preparations such as arranging the area where the structure will be installed, ground preparation, and obtaining the necessary permits are important.

Costs may vary depending on the quality of the materials to be used, dimensions, additional features, and the installation location.

Customization options may include the dimensions of the buildings, interior arrangements, insulation options, and exterior cladding, and they can be adapted according to customer demands.

The buildings are designed and manufactured in accordance with the relevant local regulations, ensuring compliance with all necessary standards and permits.

Maintenance is generally carried out with regular cleaning and periodic structural checks, the condition of the load-bearing systems and insulation is reviewed, and maintenance procedures are applied if necessary.

Containers are portable metal structural units used in various areas such as storage, transportation, offices, living spaces, and temporary housing.

Containers offer advantages such as fast assembly, easy portability, security, durability, and wide areas of use.

Containers, generally made of steel, are designed to withstand weather conditions and transportation requirements.

Containers are generally transported to the site and assembled; it may be necessary to prepare the installation area and obtain the required local permits.

Costs can vary depending on the container's dimensions, features, material quality, and delivery location.

The interior and exterior design of containers, insulation options, and additional features can be adapted according to customer demands.

Maintenance for containers is generally done through regular cleaning and checking the equipment inside the structure; repairs are carried out when needed.

New generation containers are generally produced from environmentally friendly materials and can be designed to be recyclable.

Containers should be used under suitable conditions according to the materials stored or transported inside, and safety and hygiene measures should be taken.

The lifespan of containers can vary depending on the material quality and maintenance; recycling processes can be applied when necessary.

Light steel structures are lightweight, durable, and portable building solutions built on steel frames.

Light steel structures offer advantages such as fast assembly, flexible design options, energy efficiency, and being environmentally friendly.

Light steel structures are constructed by assembling factory-manufactured parts; the assembly time can vary depending on the building's dimensions.

Light steel structures are generally made from galvanized steel and have high durability features; they can be long-lasting.

Features such as interior and exterior design options, insulation properties, and different facade claddings can be adapted according to customer demands.

Costs can vary depending on the dimensions, features, quality of materials used, and the delivery location of the structures.

Light steel structures can be designed according to local climate conditions and can be reinforced against factors like wind and snow loads.

Maintenance is generally carried out with regular cleaning and inspection of the equipment within the structure; preserving structural integrity is important.

The structures are designed and manufactured in accordance with relevant local regulations, ensuring compliance with all necessary standards and permits.

New generation light steel structures are generally produced from environmentally friendly materials and can be designed to be recyclable.

Steel hangar solutions are large steel structural units used in wide areas such as airports, industrial facilities, storage areas, and the agricultural sector.

Steel hangar solutions offer advantages such as fast assembly, large interior volume, durability, long life, and low maintenance costs.

Steel hangars are generally made from high-quality steel and can be designed to be long-lasting and resistant to weather conditions.

The assembly process is carried out by bringing together ready-made parts; it may be necessary to obtain the required permits for the installation area.

Costs can vary depending on the hangar's dimensions, features, quality of materials used, and the installation location.

Features such as the interior and exterior design of the hangars, door options, and insulation solutions can be adapted according to customer demands.

Maintenance is generally carried out with regular cleaning and inspection of the equipment within the structure; preserving structural integrity is important.

New generation steel hangar solutions are generally produced from environmentally friendly materials, and energy efficiency measures can be taken.

The durability of hangars can be increased by designing them with high-quality steel materials and long-lasting coating solutions.

The structures are designed and manufactured in accordance with relevant local regulations, ensuring compliance with all necessary standards and permits.

Open structural profiles are steel profiles used for solar beams, support elements, and various framing operations.

Open structural profiles offer advantages such as lightness, high load-bearing capacity, flexibility, ease of assembly, and longevity.

Open structural profiles are generally made from high-quality steel and can be designed to be long-lasting and resistant to various climate conditions.

The assembly process is carried out by bringing together prefabricated parts; it may be necessary to obtain the required permits for the installation area.

Costs can vary depending on the profiles' dimensions, thicknesses, features, and delivery location.

Features such as profile options, dimensions, drilling operations, and custom cuts can be adapted according to customer demands.

Maintenance is generally carried out with regular cleaning and inspection of the equipment within the structure; preserving structural integrity is important.

New generation open structural profiles are generally produced from environmentally friendly materials and can be designed to be recyclable.

The durability of profiles can be increased by designing them with high-strength steel materials and long-lasting coating solutions.

The profiles are designed and manufactured in accordance with relevant local regulations, ensuring compliance with all necessary standards and permits.

Solar system profiles are specially designed steel profiles used for the assembly of solar energy panels.

Solar system profiles offer advantages such as lightness, high durability, longevity, ease of assembly, and low maintenance costs.

Solar system profiles are generally made from high-quality steel and can be designed to withstand long-term sun exposure.

The assembly process is carried out by bringing together specially designed parts; it may be necessary to obtain the required permits for the installation area.

Costs can vary depending on the profiles' dimensions, features, quality of materials used, and the installation location.

Features such as profile options, dimensions, mounting angles, and adaptation suitable for solar panel types can be adapted according to customer demands.

Maintenance is generally carried out with regular cleaning and inspection of the equipment within the structure; correct panel assembly and monitoring of solar panel performance are important.

New generation solar system profiles are generally produced from environmentally friendly materials and can be designed considering the environmental impacts of solar energy use.

The durability of profiles can be increased by designing them with high-strength steel materials and long-lasting coating solutions.

The profiles are designed and manufactured in accordance with relevant local regulations, ensuring compliance with safety standards and local permits.

Cabins are portable structural units used in various areas such as offices, living spaces, commercial use, construction sites, and emergency housing needs.

Cabins offer advantages such as fast installation, portability, security, durability, and various size and design options.

Cabins are generally made from light steel or container construction materials and can be designed as durable, portable structures.

The assembly process is carried out by bringing together ready-made parts; the installation time can vary depending on the cabin's dimensions and features.

Costs can vary depending on the cabin's dimensions, features, quality of materials used, and the delivery location.

Features such as the interior and exterior design of cabins, insulation options, and different door and window choices can be adapted according to customer demands.

Maintenance for cabins is generally done through regular cleaning and checking the equipment inside the structure; repairs are carried out when needed.

New generation cabins are generally produced from environmentally friendly materials, and energy efficiency measures can be taken.

The durability of cabins can be increased by designing them with high-strength materials and long-lasting coating solutions.

Cabins are designed and manufactured in accordance with relevant local regulations, ensuring compliance with safety standards and local permits.