M5 fiber

M5 fiber is prepared by a condensation polymerization between tetraaminopyridine and dihydroxyterephthalic acid using diphosphorus pentoxide as a dehydrating agent. The polymer mixture is then heated and extruded to form brightly blue polymer fibers. The fibers are then washed extensively with water and base in order to remove the phosphoric acid generated by the hydration of diphosphorus pentoxide from the polymer.

Next the fiber is heated, to remove water, and exposed to controlled stress, enabling the intermolecular hydrogen bonds to be created, thus increasing the strength of the polymer by aligning the molecular structure of the fiber in a better configuration for tensile and compressive strength.

M5 has a tensile strength of 4 GPa to 9.5GPa.{{cite book | last=Chen | first=X. | last2=Zhou | first2=Y. | title=Handbook of Technical Textiles | chapter=Technical textiles for ballistic protection | publisher=Elsevier | date=2016 | isbn=978-1-78242-465-9 | doi=10.1016/b978-1-78242-465-9.00006-9}} Other aramids- (such as Kevlar and Twaron) or UHMWPE-fibres (such as Dyneema and Spectra) range from 2.2 to 3.9 GPa.{{cite web |author=René Lohmann |publisher=Teijin Aramid |title=Teijin Aramid |url=http://www.intersecexpo.com/uploads/editor_images/file/Rene%20Lohmann-Dubai%20TTS%202014_SHOW-locked.pdf |page=64 }}

M5 has "very high levels" of fire resistance, flame retardancy, and chemical resistance, especially high for an organic fiber.{{Citation needed|date=December 2024}} It is less brittle than carbon fiber and will yield when stretched.

Category:Synthetic fibers