EMPA Announces New Fire-Resistant Epoxy Resin Technology
- 22-Sep-2023 1:40 PM
- Journalist: Yage Kwon
EMPA has unveiled a groundbreaking development in epoxy resin technology with a wide range of potential applications, from coatings for wooden flooring to the production of composites used in aircraft, ships, railways, automobiles, and wind turbines. This innovative epoxy resin offers a unique combination of qualities, making it a versatile choice for various industries. According to EMPA, these epoxies are tough polymers known for their outstanding thermal and mechanical properties, all while being significantly lighter than traditional metals.
In a collaborative effort involving both national and international partners, EMPA has created a thermoset resin that distinguishes itself from others in its class due to its remarkable reshaping capabilities. This epoxy resin draws from the best attributes of thermosets and thermoplastics, such as PET (polyethylene terephthalate) or polyolefins. The process begins with a standard thermoset resin, to which researchers introduce a special class of phosphonate esters function molecules. The resulting bond forms with the polymer chains within the epoxy resin and exhibits dynamic behavior, allowing it to break under specific conditions. This unique property loosens the polymer chains, enabling them to be melted and reshaped as needed. Additionally, this process potentially opens the door to recovering valuable elements, including phosphorus, associated with the matrix polymer.
The material has also earned the moniker "vitrimers," a category of materials that has gained significant attention and promise over the past decade. Vitrimers exhibit the remarkable ability to undergo transformations and self-healing when subjected to specific conditions, making them particularly appealing for applications where resilience and adaptability are crucial.
One of the standout features of this epoxy resin is its capacity to function as a resistant and transparent coating for various surfaces, including floors. In this capacity, scratches and dents can essentially be "healed" through the application of heat and pressure, a process that showcases the material's remarkable restorative capabilities. This attribute can significantly extend the lifespan of surfaces and structures while reducing maintenance costs.
EMPA's recent breakthrough in epoxy resin technology is poised to revolutionize multiple industries by providing a versatile, tough, and lightweight material with unique reshaping capabilities. Its adaptability and potential for flame retardancy, recyclability, and repairability make it a highly attractive option for a wide range of applications. The introduction of "vitrimers" into the materials landscape holds great promise, with the ability to heal and transform under specific conditions. The epoxy resin's role as a resistant and transparent coating further enhances its appeal, offering a practical solution for surfaces that require long-lasting durability and minimal maintenance. EMPA's innovative approach to epoxy resin development opens up new possibilities in material science and engineering, with far-reaching implications for various sectors.