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Científicos rusos patentan un polímero flexible e ignífugo para aislamiento de cables y el

Researchers at Russia’s Semenov Federal Research Center for Chemical Physics have patented a new polymer material that resists burning while maintaining the flexibility of common plastics. Fire-retard

Imagen: www1.ru

Researchers at Russia’s Semenov Federal Research Center for Chemical Physics have patented a new polymer material that resists burning while maintaining the flexibility of common plastics. Fire-retardant polymers usually

The material’s base is a blend of two components: inorganic ammonium polyphosphate and an organic polymer called ethylene-vinyl acetate (EVA). These are mixed in a molten state at 200-230 °C, then formed into pellets or fibers. Because the process uses standard manufacturing lines with no exotic equipment needed, industrial adoption could be straightforward. The inorganic content makes up 70-80% of the final mix, a high loading that the researchers say delivers exceptional fire resistance without compromising flexibility.

A key measure of fire resistance here is the oxygen index-the minimum oxygen concentration that supports combustion. For this polymer, that index ranges between 45% and 95%. By comparison, typical polymers have oxygen indices of around 26-32%, with anything above 28% considered flame-retardant. Conventional fire-retardant compounds generally don’t exceed an index of 40% unless flexibility is sacrificed.

Mechanical performance is equally impressive. The polymer’s elongation at break spans 8.8% up to 346%, with the upper bound matching common plastics where around 310% is the norm. This level of stretchiness and toughness is essential for cable insulation and appliance casings, sectors that have long sought halogen-free fire-retardant materials. Typically, high filler content needed for flame resistance results in brittle, hard-to-process materials, but this new composition seems to avoid those pitfalls.

The combination of EVA and flame retardants isn’t new-it is widely used in low-smoke, low-toxicity cable compounds. The novelty here is the unusually high oxygen index coupled with mechanically stretchable properties that don’t feel like a compromise. If these lab results hold up under mass production, the polymer could extend beyond cable insulation to electronics housings, household appliance parts, and polymer building products-fields tightening fire safety regulations worldwide.

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Russia has historically relied on imported fire-resistant polymers for critical applications. This development adds a domestically engineered alternative that could reduce dependency and stimulate local manufacturing. Globally, companies like DuPont, 3M, and Clariant dominate flame-retardant polymer additives, so a flexible, high-performance material from the Semenov Center presents an intriguing competitive prospect.

Future steps will be to validate the polymer’s performance at scale and confirm its manufacturing viability. Observers will be watching whether this material indeed balances fire safety with flexibility without hidden compromises. Its success could set a new standard for cable insulation and other flame-retardant polymer products, especially as industries press for stronger safety without sacrificing durability or ease of processing.

Tomas Berg

Computing Editor

Tomas lives in the terminal. He covers chips, laptops, and operating systems with a focus on performance and efficiency. He reads kernel changelogs the way other people read fiction, and he's always on the hunt for the perfect mechanical keyboard switch. If it processes data, Tomas has an opinion on it.

vía www1.ru

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