Rail Transit
Rail Transit
With technological innovation as the driving engine, through full-lifecycle technical support and empowerment via customized R&D, we drive material performance to align with higher standards and achieve breakthroughs. Furthermore, we leverage regular technological iteration to facilitate continuous performance enhancement, establish a "R&D - Application - Optimization" closed-loop system, and solidify the product's competitive advantages in the rail transit sector.
In 2024, In response to the rail transit industry's new requirement for low-temperature impact resistance in sidewall panels, we collaborated with partners to develop a solution that successfully meets the testing standards of high-speed rail R&D centers.
In 2024, In response to the rail transit industry's new requirement for low-temperature impact resistance in sidewall panels, we collaborated with partners to develop a solution that successfully meets the testing standards of high-speed rail R&D centers.
POTENTIAL APPLICATION
POTENTIAL APPLICATION
Train Carriage Interior Components
Train Carriage Interior Components
Aerospace-grade flame-retardant composite panels replace traditional materials, reducing weight by 30%-50%. They also possess impact resistance (e.g., protection against flying stone impacts) and have obtained flame-retardancy certification (such as the EN 45545-2 railway fire safety standard), minimizing fire risks.
Train Carriage Interior Lighting System
Train Carriage Interior Lighting System
It is used for folding tablets and seat back liners. Its flame-retardant performance can effectively delay the spread of fire, while its surface is easy to clean and scratch-resistant.
Seat Assemblies and Tablets
Seat Assemblies and Tablets
LED Lamp Shades and Light Guide Plates:
They feature high light transmittance (up to over 90%) and flame retardancy, preventing combustion caused by overheating of circuits. Meanwhile, they are UV aging-resistant, making them suitable for long-term outdoor operation
Halogen-free flame-retardant PC boards (Polycarbonate boards), with their unique material properties and strict safety certifications, have become a core choice for "replacing glass with plastic" and "replacing steel with plastic" in subway construction.
A halogen-free flame-retardant PC board has a light transmittance of 88% to 92%, and its impact resistance is 250 times that of glass, which can effectively prevent fragmentation risks caused by passenger congestion or external impacts. Its surface nanoscale wear-resistant coating can resist daily scratches and reduce maintenance frequency.
The material achieves self-extinguishing properties through phosphorus-based or nitrogen-based flame retardants, with no halogen release during combustion, complying with EU environmental directives such as RoHS and REACH.
Transparent Protective Structures: Wind Shields; Subway Advertising Light Boxes
Transparent Protective Structures: Wind Shields; Subway Advertising Light Boxes