Transportation
The information provided highlights the use of groundbreaking nanotechnology and innovative approaches in the transport and railways sector, focusing on impact and scratch resistance, intumescence, and fire safety. Here are the key points:​​​
1
Nanotechnology for Impact and Scratch Resistance:
The use of nanotechnology in coatings offers substantially improved impact and scratch resistance properties. This is valuable for applications in the transport and railways sector, where surfaces are exposed to potential damage during regular use.
2
Intumescence of Thermoset and Fully Cross-Linked Polymer Compositions:
An innovative aspect is the intumescence of thermoset and fully cross-linked polymer compositions, achieving performance and characteristics similar to thermoplastic polymer compositions. This is noted as a historical first, indicating a novel development in material science.
3
Fire and Smoke Concerns in Transport Applications:
Similar to other sectors, fire and smoke are major concerns in transport applications. Stringent requirements for passive fire protection exist, as seen in regulations from the International Maritime Organization (IMO) for high-speed craft and EU Fire Safety regulations for railway carriages.
4
IVAC, LINC, MD Matrix Technology for Fire-Resistant Constructions:
IVAC, LINC, MD Matrix technology is mentioned as enabling weight-optimized fire-resistant constructions. This technology appears to comply with IMO HSC regulations, suggesting its effectiveness in meeting high safety standards in the transport sector.
5
Versatile Intumescent Compositions:
The intumescent compositions mentioned are described as versatile and suitable for various applications. These include brush or sprayed applications, molding, prefabrication tiles, cable coating, penetration seal, gap filler, caulking, adhesive, putty, pouring applications, as well as protection for cement and plaster.
In summary, the information underscores the application of advanced nanotechnology and intumescent compositions in the transport and railways sector, addressing challenges such as impact resistance, scratch resistance, and, importantly, fire safety. The use of IVAC, LINC, MD Matrix technology indicates a comprehensive approach to achieving weight-optimized fire-resistant constructions that comply with industry regulations, contributing to overall safety in the transportation domain.