Pultrusion Fiberglass Epoxy Resin Core Rod Customized
Brand Name:Dingrong
Certification:ISO9001
Model Number:Φ0.4-Φ5.0
Minimum Order Quantity:Negotiation
Delivery Time:30days
Payment Terms:L/C, T/T
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Wuxi Jiangsu China
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1510room Jiafu building, 97# Renmin middle road,Wuxi city,Jiangsu province, China
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FRP Strength Member For Fiber Optical Cables
The text highlights the different manufacturing techniques used for producing FRP (Fiber Reinforced Polymer) rods. Pultrusion is a widely used method that allows for the creation of continuous lengths of FRP rods with consistent cross-sectional profiles. This process involves pulling the fiber reinforcements through a resin bath and then through a heated die, which results in a cured and solidified profile.
Apart from pultrusion, other techniques such as filament winding and resin transfer molding are also used depending on specific design requirements and material properties. Filament winding involves wrapping fibers around a mandrel in a specific pattern, while resin transfer molding involves injecting resin into a mold containing the reinforcement fibers.
Each of these techniques offers distinct benefits depending on the desired outcome. Pultrusion is ideal for creating long, continuous lengths of FRP rods with a consistent cross-sectional profile, while filament winding is better suited for creating complex shapes and designs. Resin transfer molding is useful for producing parts with varying thicknesses and complex geometries.
Overall, the choice of manufacturing technique depends on the specific requirements of the product being produced, such as strength, durability, and cost-effectiveness. The use of FRP rods has become increasingly popular in various industries due to their lightweight, high strength, and corrosion-resistant properties.
Properties of Non-metallic FRP Rod Strength Member
A. High strength
FRP is stronger than structural steel on a pound-for pound basis.
B. Light weight
FRP is 20-25% the weight of steel and 70% the weight of aluminum. FRP are easily transported, handled and lifted into place.
C. Anti-corrosion
FRP will not rot and are impervious to a broad range of corrosive elements. This feature makes FRP a natural selection for indoor or outdoor structures in corrosive environments.
D. Electro-magnetic transparency
FRP are transparent to radio waves, microwaves and other electromagnetic.
E. Non-conductive
FRP has low thermal/ electrical conductivity.
F. Dimensional stability
The coefficient of thermal expansion of FRP is slightly less than steel and significantly less than aluminum.
- High tensile strength, high modulus, low thermal conductivity, low elongation, low expansion, and wide temperature range;
- Non-metallic materials are not sensitive to electric shock, and are suitable for areas with multiple lightning and rainy weather conditions;
- Chemical resistance, compared with the metal core, the GFRP reinforcing core does not affect the fiber transmission index
- The fiber optic cable using the GFRP reinforcing core can be installed next to the power line and the power supply device, and is not interfered by the induced current generated by the power line or the power supply device;
- Smooth surface is , stable size, easy to process and lay, and the application range is wide.
Pultrusion Fiberglass Epoxy Resin Core Rod Customized
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