RUSSCOMP® FRP
It has excellent flame-retardant properties, making it particularly suitable for applications in rail transit, shipbuilding, and the aviation industry.
Boasting exceptional flame-retardant properties, combined with core advantages such as high strength, corrosion resistance, and lightweight design, RUSSCOMP® FRP demonstrates strong adaptability in the aviation industry, rail transit, and shipbuilding sectors—all of which demand stringent safety protection and performance standards. Detailed applications are as follows:
1. Aviation Industry
The aviation sector imposes extreme requirements on material flame retardancy, lightweight performance, and high strength. RUSSCOMP® FRP is suitable for interior components (e.g., cabin partitions, luggage compartment liners, seat parts) and some structural auxiliary parts of civil aircraft and general aviation equipment. Its flame-retardant properties have passed rigorous aviation industry certifications, enabling it to inhibit combustion in high-altitude and low-pressure environments. Additionally, its low-smoke and low-toxicity characteristics prevent secondary harm to crew and passengers.
With high specific strength, the material reduces airframe weight while ensuring structural load-bearing capacity, helping to improve aircraft fuel efficiency and range. Its excellent fatigue resistance and stability allow it to adapt to complex environments such as high-altitude temperature differences and air pressure changes, ensuring structural reliability during long-term flights. It also reduces component replacement frequency and lowers operational costs.
2. Rail Transit
This sector has strict requirements for material flame retardancy, smoke toxicity, and mechanical stability to address safety risks in crowded, enclosed spaces. RUSSCOMP® FRP can be used to manufacture interior components of high-speed trains and subways (e.g., seat frames, carriage wall panels, ceilings, luggage racks). Its flame-retardant properties effectively inhibit fire spread, and it produces minimal smoke and low toxic gas emissions during combustion, buying time for passenger evacuation.
Meanwhile, its lightweight nature reduces train weight and improves operational efficiency. Its corrosion resistance and aging resistance enable it to adapt to long-term, high-frequency operational environments, minimizing erosion from moisture and dust and extending maintenance cycles. Good mechanical strength ensures components remain structurally stable and resistant to deformation or damage amid jolts and vibrations.
3. Shipbuilding
Ships face challenges such as seawater corrosion, enclosed spaces, and fire hazards. RUSSCOMP® FRP is widely applicable to hull structural parts (e.g., cabin bulkheads, deck coverings, side guards) and interior components (e.g., cabin doors, ceilings, decorative panels). Its flame-retardant properties meet maritime industry fire safety standards, effectively blocking fire spread between cabins and safeguarding crew and cargo.
The material’s seawater corrosion resistance far exceeds that of traditional metals, avoiding rust caused by salt spray and seawater immersion and reducing maintenance costs. Its lightweight advantage optimizes ship draft and sailing speed, enhancing fuel economy. Furthermore, its good formability adapts to the complex structural designs of ships, meeting installation requirements for different parts.
