Product Details

Product Introduction:

The elementary composition of FRP pultruded profiles is resin and glass fiber, it is based on fiber reinforced material, compounded with resin as adhesive agent.

Fiber Reinforced Polymer (FRP) or Glass reinforced Polymer (GRP) is an extremely versatile material. FRP composites and their properties can be specifically tailored for the end product.

The list of products and applications using FRP composites is long and growing, and it is because of the malleability of the properties that allow FRP composites to dominate such a wide range of industries and products.

FRP window&door Contrast to Other Materials window&door

Note: A is the best

Product Features:

High strength with low unit weight

FRP materials are one of the strongest commercial materials available. FRP is stronger in many ways than conventional construction materials. FRP’s toughness allows thin sections to be used; stiffness can be acquired by using structural core materials, without substantially increasing weight.

FRP Properties:

Corrosion resistance

Unlike metals, FRP materials do not suffer from corrosion/rusting. Materials fabricated from FRP have a longer service life in corrosive environments and perform extremely well in damp environments or even submerged in fresh and salt water. Durability FRP products have weathered climate extremes since their introduction during World War II. As a result, FRP architectural parts can often reduce long-term maintenance costs when compared to many traditional materials.

FRP Advantages:

The primary benefit of FRP systems versus traditional retrofit methods is that significant flexural, axial or shear strength gains can be realized with an easy-to-apply composite that does not add significant weight or mass to the structure.

Steel plate bonding, concrete section enlargement and steel jacketing have been the renovation methods of choice for decades, yet corrosion, bond degradation and installation difficulty are consistent challenges to overcome, and the resultant retrofit generally adds weight, reduces usable space, clearance, or both.

In many cases, FRP is the most economical choice given the reduced preparation and labor costs. FRP can usually be installed without taking the structure out of service.

• Economically increase capacity without significant weight or mass

• Extremely high tensile strength

• Lightweight and user-friendly installation

• Non-corrosive

• Low aesthetic impact

• Compatible with many finishes and protective coatings

FRP Application:

Fiber reinforced polymer (FRP) has a wide range of consumer, commercial and public sector applications.

In the commercial and public sectors, the most common FRP application is concrete strengthening.

There are three common scenarios where FRP has proven to be more economical than traditional strengthening methods:

Increases to a structure's load capacity beyond the original specification or expectation.

Seismic strengthening

Repairs to concrete structures that become damaged over time.

In all cases, FRP has less spatial impact on the structure than traditional methods. It is a thin, yet high strength material. This translates into benefits such as not reducing a bridge's clearance by more than the width of the material (less than 3 millimeters) plus the thin bonding and protective layers.

Low spatial impact can also mean not sacrificing any rentable space in a commercial structure such as a parking garage or a warehouse.

It can mean not decreasing the flow rate through a pipeline by a consequential amount.

Another benefit to FRP is that it can be used in tight work spaces that may be inaccessible with traditional methods and materials.

Packing and Loading:

We can pack according to any of your needs.

FAQ:

Q: Can fiber reinforced panels be installed over most substrates?

A: Fiber reinforced panels can be installed almost on any substrate, provided the surface is dry and stable. The panel system will not allow the surface to dry, so FRP should not be installed where moisture must escape from the original surface.

Q: How do you install FRP over drywall?

A: The standard method for installing FRP over bare drywall is to use a water-based mastic adhesive. If fasteners are desired, the panels can be secured with plastic pop rivets placed at the recommended intervals. The trim molding pieces between panels and at inside and outside corners typically are installed with metal staples. For maximum water-resistance, panels should be sealed at all trim joints with silicone caulk.

Q: Are you a factory or trading company?

A: We are professional manufacturer. We are warmly welcome clients from worldwide to visit our factory and cooperate with us.

http://www.ty-pultrusionsfrp.com/