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Standing Seam Roof Cladding 

TPO, PVC and EPDM Membrane Roof Cladding

Sandvich Panel Roof and Facade Cladding

Smoke Extraction Systems

Syphonic Rainwater Drainge Systems

SERVICES

Standing Seam Roof Cladding 

Standing seam locking system starts with the selection of trapezoidal sheet form and thickness depending on the steel purlins specified in the project. After the first layer, the trapezoidal sheet, is fixed to the roof by mechanical fixation method, a vapor balancing membrane is laid on it. Afterwards, the thermal pad and dumbbells are placed and assembled. After the thermal insulation is laid with the thickness determined in line with the project needs, it is fixed with mechanical fixation, the panels are placed on the ends of the dumbbells and the joints are tightened with the help of the robot, creating a hole-free surface on the roof. 
Manufacturing can be done in all colors in the RAL scale. 


Metal materials that can be used;
Steel, Stainless Steel, Aluminum, Copper, Titanium Zinc
*System application type detail information, may vary depending on project requirements

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TPO, PVC and EPDM Membrane Roof Cladding

It starts with the selection of trapezoidal sheet form and thickness, depending on the steel purlins specified in the project. After the first layer, the trapezoidal sheet, is fixed to the roof by mechanical fixation method, a vapor balancing membrane is laid on it. Thermal insulation plate of the type and thickness specified in the project is fixed on this layer by mechanical fixation method. As the last layer, EPDM, PVC or TPO membrane is fixed with the help of mechanical fixation, heat treatment is applied and welded, and a flat leak-proof surface is obtained on the roof.

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Sandvich Panel Roof and Facade Cladding

Sandwich panels; It is a composite material that provides insulation on the roofs and facades of buildings as lightweight construction elements. Insulation types of the composite system vary depending on the project fire requirements. Polyurethane (PUR) and Polyisocyanurate (PIR), Polystyrene (EPS), Rockwool and Glasswool constitute these filling types.

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Smoke Extraction Systems

When a fire occurs in an enclosed space, thermal convection currents carry smoke and hot gases towards the ceiling and then fill the space with an ever-increasing level of smoke. The main task of smoke control and heat extraction systems is to remove smoke and heat from the facilities as quickly as possible in case of fire and to create a low smoke layer in the location.
A pressurized gas is used to open the lids. (Carbon Dioxide, Nitrogen, etc.) Again, in this type of operation, the covers can be opened automatically or manually upon detection of fire.
In pneumatic control, the heat-sensitive liquid in the glass tube located in the piston mechanism on the smoke discharge covers explodes when heat is detected, triggering the release of the gas in the CO2 tube and the opening of the covers with the help of the piston rod under pressure.
Additionally, CO2 cylinders can be kept in a different place in a separate panel, independent of the system. Thanks to the trigger levers in this panel, the CO2 cylinders connected to the system are triggered and the lids are triggered by pressure. Copper piping is installed between the pressurized gas cylinders and smoke discharge covers in the independent panel. Pressurized gas is transmitted to the pistons in the smoke discharge caps through copper pipes. In these systems, smoke discharge flaps can be opened independently, individually or in groups, after triggering. As with electrical triggering, such smoke discharge covers can also be used for daily ambient ventilation with ventilation motors.

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Syphonic Rainwater Drainge Systems

Siphonic rainwater drainage system is a system created to drain rainwater from roof surfaces safely and economically. This discharge system works on the principle of pressure flow (full filling with water without containing air).
• Less strainer with high drainage capacity
• More flexibility in design with savings on downpipes
• Maximum space utilization with non-inclined horizontal pipelines
• Faster assembly
• Smaller pipe diameters
• Self-cleaning system thanks to high flow rate

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