The Proof membrane system is a highly secure insulation system that does not require the production of a protective screed in sub-foundation areas and allows for the installation of reinforcement bars on top of it. It bonds with the poured concrete (fresh concrete membrane), is available in thicknesses of 2.10 mm - 2.30 mm, has a geotextile felt laminate backing, and is reinforced with fiberglass in the middle, adhering to the concrete at every point in a waterproof manner. The joints are joined by double-row hot air robot welding and then tested with 2 atm compressed air. This allows for control of every stage of the completed insulation production. Geomembranes are produced in various widths and thicknesses in sheets by extrusion and calendering processes, from a mixture formed by adding various substances such as polymer resin and antioxidants, plasticizers, fillers, carbon black, and lubricants to the raw material. They are manufactured by stitching with thermal air welding robots, have very high strength, low load bearing capacity and tear risk, and are resistant to UV sunlight. In single-sided retaining wall areas without a working allowance on the rear side, safe and easy insulation application is possible. Geomembrane of the same thickness is applied under the foundation and in retaining wall areas. The material type and thickness do not change in the retaining wall areas. The membrane from the retaining wall also passes into the terrace area, thus preventing changes in membrane, system, and thickness according to the detail.
In pile head insulation applications, the building materials used around the pile, the water-retaining profile and membrane, and the foundation-under-proof membrane systems are 100% compatible and absolutely do not lose their performance under negative water pressure.
One of the biggest features of the proof membrane system, which adheres to the poured concrete, is its complete resistance to the effects of plant and tree roots, seawater, ozonized water, sulfate water, caustic soda, urea, bitumen, cyanide, acidic and alkaline water solutions. It is safely used in marine structures, industrial structures, and deep foundation applications.
In proof membrane systems, insulation integrity is ensured with special accessories that ensure the continuity of the system at corner turns, pile heads, and cable/pipe penetration details.
PROOF Membrane System Advantages:
The Proof Membrane Insulation System adheres to the poured concrete at every point, creating a watertight bond.
Waterproofness: 600 kPa / 24h - EN 1928
Joints are welded with double-row hot air robot welding and then tested with 2 atm compressed air.
Provides safe and easy insulation application in single-sided formwork areas.
Prevents water from penetrating between the structure and the membrane.
Proof Membrane is fully compatible with pile head insulation application accessories.
It is not affected by water pressure coming from the negative direction.
Proof Membrane can be easily applied on wet and damp surfaces.
Weather conditions (rain, snow, etc.) do not affect insulation performance.
Service temperature is between +80°C / -45°C.
It is not affected by temperature changes.
Application can be done in hot and cold weather conditions that the human body can withstand.
Proof Membrane provides safe and easy detail transitions in transitions that disrupt insulation continuity, such as corner turns, pile heads and around pile reinforcing bars, pipe and grounding cable passages, and ventilation outlets, thanks to its specially manufactured accessories. The accessories are joined to the membrane system, which adheres to the concrete, with hot air welding.
It is not affected by segregation and other negative effects that may occur during concrete pouring in curtain wall areas.
The membrane structure and joint areas are fully resistant to the effects of plants and tree roots thanks to hot air robot welding. It has FLL certification. The membrane structure and joint areas are fully resistant to caustic soda, seawater, sulfate salts, urea, ozone, cyanide, bitumen, acid and base solutions. The membrane structure and joint areas are also fully resistant to UV radiation and its effects.
PROOF Membrane Details:
The Proof membrane system is a highly secure insulation system that does not require the production of a protective screed in the foundation areas and allows for the installation of raft foundation reinforcement. It bonds with the poured concrete (fresh concrete membrane), is 2.10 mm - 2.30 mm thick, has a geotextile felt laminated backing, and is reinforced with fiberglass in the middle, adhering waterproofly to the concrete at every point. The joints are joined with double-row hot air robot welding and then tested with 2 atm compressed air. This allows for control of every stage of the completed insulation process. Geomembranes are produced by extruding and calendering a mixture of polymer resin and various substances such as antioxidants, plasticizers, fillers, carbon black, and lubricants into sheets of various widths and thicknesses. They are manufactured by stitching using thermal air welding robots, possessing very high strength, low load bearing capacity and tear risk, and resistance to UV sunlight. They can be safely and easily applied in single-sided retaining wall areas without a working allowance on the back. The same thickness of geomembrane is applied under the foundation and in retaining wall areas. The material type and thickness do not change in retaining wall areas. The membrane from the retaining wall also transitions to the terrace area, thus preventing changes in membrane, system, and thickness depending on the detail. Within the scope of pile head insulation applications, the ExtruSeam water-retaining profile and membrane used around the pile are 100% compatible with foundation-underwater proof membrane systems and absolutely do not lose their performance under negative water pressure.
Proof membrane systems, which adhere to poured concrete, are highly resistant to plant and tree root effects, seawater, ozonized water, sulfate solutions, caustic soda, urea, bitumen, cyanide, and acidic and alkaline water solutions. They are safely used in marine structures, industrial buildings, and deep foundation applications. In proof membrane systems, insulation integrity is ensured at corners, pile heads, and cable/pipe penetrations with special accessories that maintain system continuity.
Flat LLDPE and HDPE Geomembrane
During production, polyethylene is prepared with raw materials, dyes and auxiliary additives. They are insulating membranes that are homogeneously shaped through a calender system by undergoing the necessary processes in extruders. HDPE stands for high density polyethylene, LLDPE stands for linear low density polyethylene.
According to different uses, high density polyethylene geomembranes are called HDPE, low density polyethylene geomembranes are called LLDPE-VLDPE. Such polyethylene geomembranes produced using high density polyethylene material are used as barriers to prevent the passage of liquids and gases around the world, especially in landfills.
T-Grip LLDPE Geomembrane (LD-TG)
It is the model where there are protrusions that december at certain intervals along the roll, which allows the geomembrane to hold on to the concrete. It is mainly used in sewage collectors, sewage concrete pipes, walled irrigation and water transmission channels and other applications suitable for such details. It has achieved high success in insulating the surface of the formwork by applying it to the basic bundle with a dense amount of water
T-Grip HDPE Geomembrane (HD-TG)
It is a model in which there are protrusions extending december certain intervals along the roll, which allows the geomembrane to hold on to the concrete. In particular, it is used in sewage collectors, sewage concrete pipes, walled irrigation and water transmission channels and other applications suitable for such details. It has achieved high success in making insulation by applying it to the mold surface in a basic bundle with a dense amount of water.
HDPE Geomembrane (HD-TR)
The material is black, homogeneous and monochromatic. Special production in different colors can be made upon request. According to the need, it can be produced flat or rough. Signal Layered HDPE Geomembrane (HD-ST) is a geomembrane model consisting of a thin and light-colored layer on one surface to facilitate the detection of damage. When the material is hit, the thin, light-colored layer breaks down and the dark color at the bottom begins to appear. The pulsed part is easily noticeable when examined by eye.
Areas Of Use
Irrigation Channels and Water Transmission Channels
Solid, Medical and Hazardous Waste Areas
Ponds and Pools
Mining Sites
Oil Fields, Under the Tanks
Roughened LLDPE and HDPE Geomembrane
Maximum Insulation and Holding Ability in Slopes
Rough LLDPE and HDPE geomembranes; They are produced as single and double sided. During production, polyethylene is prepared with raw materials, dyes and auxiliary additives. They are insulating membranes that are homogeneously shaped through a calender system by undergoing the necessary processes in extruders.
The Use of LLDPE and HDPE Geomembrane
They are insulating membranes that are homogeneously shaped through a calender system by undergoing the necessary processes in extruders. HDPE stands for high density polyethylene, LLDPE stands for linear low density polyethylene. According to the place where it will be used, LLDPE should be selected if there are more details, indentations and protrusions, and HDPE geomembrane if flatter details are available.
Featured Features
Polyethylene geomembranes produced in different thicknesses according to the application areas of high and medium slope slope terrain conditions are also produced rough in order to be suitable for field slope. In order to prevent the material placed on inclined surfaces from sliding, the roughness height and the number of roughness per m2, as well as the coefficient of adhesion and friction, are increased by using rough geomembranes and slip is prevented. Rough geomembranes are especially preferred in waste sites and landfills.
Areas Of Use
Solid, Medical and Hazardous Waste Areas
Ponds and Pools
Mining Sites
Oil Fields
