Fatigue Cut Growth of Thermoplastic Polyurethanes

Abstract: A fatigue cut growth evaluation for thermoplastic polyurethanes is presented. The results from an experimental design study that included four different polyol types, the effect of the molecular weight of the polyol and three different urethane contents are discussed. The polycarbonate polyol showed the lowest fatigue cut growth resistance. The molecular weight of the TPUs is of key importance for dynamic fatigue applications. The crack length as a function of the number of cycles and the cut growth rate as a … Show more

“…We believe this wide-ranging improvement was due to the relatively larger micro-phase separation that was reported for poly(carbonate)urethanes. [11] The surface of our PCU had a domain size of 25 nm which was measured by AFM. As mentioned, it has been pointed out that suitable phase separation on the polyurethane surface may lead to the lowest fibrinogen/albumin adsorption ratio.…”

Enhanced Biocompatibility in Biostable Poly(carbonate)urethane

“…We believe this wide-ranging improvement was due to the relatively larger micro-phase separation that was reported for poly(carbonate)urethanes. [11] The surface of our PCU had a domain size of 25 nm which was measured by AFM. As mentioned, it has been pointed out that suitable phase separation on the polyurethane surface may lead to the lowest fibrinogen/albumin adsorption ratio.…”

Enhanced Biocompatibility in Biostable Poly(carbonate)urethane

Compressive cyclic ratcheting and fatigue of synthetic, soft biomedical polymers in solution

Fatigue of injection molded and 3D printed polycarbonate urethane in solution