Vectran composite properties. Also known as breaking length, the length of fiber that could be held in a vertical direction without breaking. * Specific Strength = Strength/Density (also divided by force of gravity for SI units). . The ability for Vectran® and fabrics to tolerate repeated bending/folding cycles without loss of tensile properties is key to their success in flexible composites. VECTRAN™ shows not only extremely high tenacity, but also unique properties, such as “low water absorption”, “dimensional stability”, and “high abrasion resistance”, which come from special characters of liquid crystal polymer. Vectran™ LCP fiber offers unique properties as compared to traditional metals in terms of strength-to-weight ratios. VectranTM fiber has a low, negative coef-ficient of thermal expansion (CTE), which is particularly beneficial for dimensional cont-rol of composites. Making use of these features Vectran™ is a high-performance liquid crystal polymer (LCP) fiber offering a balance of properties unmatched by other performance fibers. Some of these unique properties were discovered through 20 years of research and development of the polymer Vectra™. VectranTM fiber has good strength retention in exposure to a wide variety of acids, bases, and solvents over a broad range of tempera-tures. VECTRAN™ is a liquid crystal polymer fiber that Kuraray was the first in the world to produce industrially in 1990. Vectran Fiber Time-Dependent Behavior and Additional Static Loading Properties Abstract Vectran HS appears from literature and testing to date to be an ideal upgrade from Kevlar braided cords for many long-term, static-loading applications such as tie-downs on solar arrays. Jan 15, 2021 ยท High strength at low temperatures, bending fatigue strength, resistance to abrasion and high tensile strength of Vectran fibers were the key characteristics for selecting this material. klsc gfs abusq gmgyyc wfkvc emtyu aqhq wtdqtl oiisq rrcsl