FRP instalation
Structural Strengthening
Efficient strengthening of concrete structures can be applied by using Fibre Reinforced Polymers
(FRP), which are available in prefabricated plates, fabrics as well as post-tensioned systems.
We provide a full range of strengthening systems consist of different type of materials which
can be used for flexural, shear and axial strengthening as well as for increasing seismic
resistance of structures.
Strengthening Systems
Prefabricated CFRP Plates
For strengthening of concrete substrates, prefabricated Carbon Fibre Reinforced Polymer (CFRP) plates can
be bonded on
top of the surface. We use a wide range of CFRP plates in different dimensions an E-modulus.
FRP Fabrics
External applied fabrics can be used increase flexural, shear, axial or seismic resistance of structures.
We install various fabric systems, based on different type of materials for specific needs and cost optimized
strengthening.
CFRP Post-tensioning Systems
Post-tensioned systems are effective for control of structural cracks and deflections and to increase fatigue
resistance.
Efficient strengthening of concrete structures can be applied by using Fibre Reinforced Polymers
(FRP), which are available in prefabricated plates, fabrics as well as post-tensioned systems.
We provide a full range of strengthening systems consist of different type of materials which
can be used for flexural, shear and axial strengthening as well as for increasing seismic
resistance of structures.
Strengthening Systems
Prefabricated CFRP Plates
For strengthening of concrete substrates, prefabricated Carbon Fibre Reinforced Polymer (CFRP) plates can
be bonded on
top of the surface. We use a wide range of CFRP plates in different dimensions an E-modulus.
FRP Fabrics
External applied fabrics can be used increase flexural, shear, axial or seismic resistance of structures.
We install various fabric systems, based on different type of materials for specific needs and cost optimized
strengthening.
CFRP Post-tensioning Systems
Post-tensioned systems are effective for control of structural cracks and deflections and to increase fatigue
resistance.
