FAQ

1. Application fields of fiberglass grating？

 Fiberglass grating is a versatile and durable material that finds application in various fields due to its unique properties. The application fields of fiberglass grating are diverse and include industries such as construction, marine, oil and gas, chemical processing, and water treatment.

 Furthermore, fiberglass grating is used in the food and beverage industry for flooring and drainage systems in processing plants and breweries. Its non-porous surface and resistance to bacteria growth make it a hygienic choice for these applications.

 Overall, the application fields of fiberglass grating are vast and diverse, making it a popular choice for industries that require a strong, durable, and corrosion-resistant material for various structural and safety applications.

2. What material is the FRP grating plate made of?

 FRP (Fiber Reinforced Plastic) grating plates are made of a composite material that offers a unique combination of strength, durability, and corrosion resistance. The material used in FRP grating plates is a blend of reinforced fiberglass and thermosetting resin, typically polyester or vinyl ester. This combination of materials results in a lightweight yet robust product that is ideal for a wide range of industrial and commercial applications.

3. What is pultruded fiberglass grating?

 Pultruded FRP grating is a type of grating made of pultruded fiberglass material. Pultrusion is a manufacturing process in which continuous fibers, such as fiberglass, are pulled through a resin bath and then formed into the desired profile using heated molds. This process produces a strong, lightweight and corrosion-resistant material that is ideal for grating applications.

4. What is application of pultruded FRP grating?

 Pultruded fiberglass grating is commonly used in industrial and commercial settings where traditional metal grating may not be suitable due to its tendency to corrode, its weight, or its conductivity. It is commonly used in applications such as walkways, decks, trench covers and other structural components that require a durable, non-conductive and low-maintenance material.

5. What is the advantage of pultruded fiberglass grating?

 Advantages of pultruded fiberglass grating include a high strength-to-weight ratio, resistance to corrosion and chemicals, non-conductivity, and low maintenance requirements. It also offers a variety of resin formulations and surface textures to meet specific performance and safety requirements. 

6. What is molded fiberglass grating?

  Molded fiberglass grating is a grating made of reinforced fiberglass material. It is produced through a molding process in which fiberglass and resin are combined in a mold and then solidified under heat and pressure. This process results in a grille with a one-piece structure in which the top surface, bearing bars and crossbars are all molded together.

 Molded fiberglass grating is known for its high strength-to-weight ratio, corrosion resistance, and durability. It is commonly used in applications that require lightweight, non-conductive and low-maintenance materials, such as industrial environments, walkways, platforms and other structural components. Molded fiberglass grating is available in a variety of resin formulations and surface textures to meet specific performance and safety requirements.

 Advantages of molded fiberglass grating include corrosion, chemical and UV resistance, as well as slip and impact resistance. It is also available in a variety of colors and panel sizes to suit different applications. 

7. What is the difference between molded frp grating and pultruded frp grating?

 The main difference between molded FRP (fiber reinforced plastic) grating and pultruded FRP grating is the manufacturing process of both types of grating and the resulting performance.

 Molded FRP grating is produced through a process that combines fiberglass and resin in a mold and then cures it under heat and pressure. This process results in a grille with a one-piece structure in which the top surface, bearing bars and crossbars are all molded together. Molded fiberglass grating is known for its high impact resistance and ability to incorporate a variety of surface textures and colors.

 Pultruded FRP grating, on the other hand, is manufactured using a pultrusion process in which continuous fibers, such as fiberglass, are pulled through a resin bath and then formed into the desired profile using heated molds. The process produces gratings with a high strength-to-weight ratio, as well as excellent corrosion resistance and durability. Pultruded FRP grating is commonly used in applications requiring high strength and stiffness.

 In summary, the main differences between molded FRP grating and pultruded FRP grating are the manufacturing process, final performance, and the specific applications for which they are best suited. Molded FRP grating is known for its impact resistance and design flexibility, while pultruded FRP grating is valued for its high strength, corrosion resistance, and durability.

8.What is FRP Handrail Systems? 

 FRP (fiber reinforced plastic) handrail systems are railing systems made from composite materials, usually fiberglass reinforced with polymer resin. These handrail systems are designed to provide a lightweight, durable and corrosion-resistant alternative to traditional metal or wood handrails.

 FRP handrail systems are commonly used in industrial, commercial and public infrastructure environments that require a strong and low-maintenance railing solution. They are typically used in environments that require exposure to harsh chemicals, extreme temperatures, or corrosive elements, such as chemical processing plants, wastewater treatment facilities, marine environments, and outdoor structures.

 Advantages of FRP handrail systems include resistance to corrosion, UV degradation, chemical exposure, and non-conductivity. They are available in a variety of configurations, including straight sections, curved sections and custom designs, and can be installed using a range of mounting options to suit different applications.

 Overall, FRP handrail systems provide a versatile and durable solution for providing safety and guidance in a variety of industrial and commercial settings.

9. What’s the advantage of FRP handrail systems?

 FRP (fiber reinforced plastic) handrail systems offer several advantages over traditional handrail materials such as metal or wood.  Some of the key benefits of FRP handrail systems include:

1. Corrosion resistance: Fiberglass handrails are highly corrosion-resistant, making them suitable for use in harsh environments where exposure to moisture, chemicals or salty air can cause traditional metal or wooden handrails to deteriorate. Deterioration.
2.  Light weight: Fiberglass handrails are lightweight but strong, making them easier to carry and install than metal handrails. This reduces installation costs and reduces stress on the supporting structure.
3. Durability: Fiberglass handrail systems are durable and long-lasting, able to withstand UV radiation, extreme temperatures, and physical impact without degradation.
4. Non-conductive: FRP handrails are non-conductive, making them a safer option for use in environments where conducting electricity could be hazardous, such as near electrical equipment or in outdoor environments.
5. Low maintenance: Compared to traditional materials, FRP handrail systems require minimal maintenance. They won't rust, rot, or require painting, and are easy to clean, reducing the need for ongoing maintenance.
6. Design flexibility: FRP handrails can be manufactured in a variety of shapes, sizes and colors, allowing customization to meet specific design and safety requirements.

 Overall, the advantages of fiberglass handrail systems make them a popular choice for industrial, commercial and public infrastructure applications where safety, durability and low maintenance costs are important considerations.