FRP: The Future of Material Science

At Rexa Composite, we’re dedicated to revolutionising industries with our cutting-edge FRP (Fiber-Reinforced Polymer) solutions.

By combining durability, strength, and resistance to harsh conditions, our FRP products outperform traditional materials like steel, aluminium, and wood. Here are just a few reasons why FRP is the smart choice for modern applications:

Design Flexibility

FRP can be moulded into complex shapes and designs, making it ideal for custom applications where traditional materials fall short. This flexibility allows for innovative solutions that meet specific project requirements.

UV Resistant

FRP is formulated to resist UV radiation, ensuring it won’t degrade or weaken in prolonged exposure to the sun. This makes FRP perfect for outdoor applications where UV resistance is crucial.

Lighter than Steel

FRP’s lower density reduces transportation costs and makes it easier to handle during installation. This lightweight advantage also simplifies logistics and reduces labour costs.

Long-Term Durability

FRP products last longer than traditional materials, reducing the need for frequent replacements. This extended lifespan means fewer maintenance headaches and lower costs over time.

Unparalleled Corrosion Resistance

FRP resists rust, chemicals, and insect damage, making it perfect for areas exposed to water or chemicals. This corrosion resistance ensures FRP products remain strong and durable even in harsh environments.

Environmental Benefits

FRP is made from recyclable materials and can be reused or recycled at the end of its life cycle, reducing waste and minimising environmental impact. This eco-friendly approach sets FRP apart from traditional materials.

Fire Retardant

Many of our FRP products are designed to resist fire, meeting stringent fire-retardant standards. This added safety feature provides peace of mind in high-risk environments.

High Strength & Impact Resistance

Despite being lightweight, FRP packs a punch with its high strength-to-weight ratio and ability to handle heavy impacts. This makes FRP perfect for applications where strength and durability are paramount.

Superior Slip Resistance

Our FRP gratings are designed with safety in mind, providing a strong grip even in wet or oily conditions. This reduces the risk of slips, trips, and falls, creating a safer work environment.

Cost-Effective

FRP offers a lower life cycle cost compared to traditional materials, thanks to reduced maintenance and replacement needs. This means significant cost savings over the long term, making FRP a smart investment for any project.

Non-Conductive & Safe

FRP is non-conductive, both electrically and thermally, making it a safer option in environments where electrical safety is a concern. This reduces the risk of electrical shocks, fires, and other hazards.

Easy Installation

FRP is lightweight and easy to work with, reducing labor costs and time on site. This streamlined installation process gets projects up and running faster, saving time and resources.

Low Maintenance Costs

With FRP, you can say goodbye to rust, peeling paint, and structural weakness due to wear and tear. This means fewer maintenance headaches and lower costs over time.

FRP vs. Traditional Materials: A Side-by-Side Comparison

When it comes to choosing the right material for your project, it’s essential to consider the benefits and drawbacks of each option. Here’s how FRP stacks up against traditional materials like steel, aluminium, and wood:

Property FRP Composites (Rexa) Aluminum Wood Steel
Thermal Insulation Acts as an insulator, keeping heat in/out Conducts heat Low thermal conductivity High thermal conductivity (conducts heat)
Electromagnetic Transparency Transparent to radio and electromagnetic waves
Reflects electromagnetic waves Transparent to radio waves Can block or interfere with signals
Fabrication Complexity Lightweight, flexible, easy to install Good Machinability Easy to cut and work with using basic tools Requires heavy equipment and welding
Corrosion Susceptibility Resists rust, chemicals, and insect damage Can cause galvanic corrosion Susceptible to rot and decay in moisture Prone to corrosion and rusting over time
Density (g/cm³) 1.9 - 2.1 2.7 - 2.8 0.3 - 0.7 7.85
Impact Tolerance Absorbs impact without permanent deformation Easily deforms under impact Breaks or deforms under pressure Can deform or dent permanently
Lifecycle Cost Lower lifecycle cost (due to less maintenance) Similar initial cost to FRP, higher over time Cheaper upfront but higher maintenance costs Higher overall cost due to maintenance
Electrical Conductance Non-conductive, safer for electrical applications Conducts electricity Conducts electricity when wet Conducts electricity