About composite
Composites are revolutionizing our society and impacting our daily lives by giving us products to use that are lighter, more durable and have infinite design flexibility.
Composites are created by combining two or more materials to produce a new material that retains important properties from the original components. These unique combinations deliver significant advantages over traditional materials in structural applications.
Composites consist of a polymer matrix material that is reinforced with fibers. The reinforcing fibers (Carbon fiber, Glass fiber Or Aramid fiber) provide the primary structural performance of the material, with the polymer transferring the load from fiber-to-fiber and protecting the fibers from the operating environment (water, heat, cold, chemicals, UV and insects.) Reinforcement may be continuous fibers, discontinuous fibers or particles.
For manufacturers, composites offer a flexible solution with the advantage of being able to select just the right combination of fiber reinforcement and polymer material to meet the application requirements.
We are offering GRP/FRP (Glass fiber reinforce polymer) and CRP (Carbon fiber reinforce polymer) in our production facilities to serve many applications with different characteristics and features.
composite features
– Combination and performance
– Easy fabrication and design
– Operational cost and maintenance
performance
composite characteristics
comparison table
Composite | Aluminum | Wood | Steel | |
---|---|---|---|---|
Strength to Weight |
High | Medium | Low | High |
Thermal Conductivity |
Low | High | Low | High |
Expansion & Contraction |
Low | High | Low | Medium |
Corrosion & Chemical Resistance |
High | Medium | Medium | Low |
Electrical Conductivity |
Low | High | Low | High |