Fabrication of small-diameter polyurethane vascular grafts with microporous structure

## Abstract Microporous polyurethane vascular prostheses with a 4 mm diameter and 0.3–0.4 mm wall thickness were fabricated by a spray phase inversion technique. In this study, the effect of distance between spray guns (SG) and rotating mandrel (RM), the effect of rate of rotating mandrel (RRM), an

## Abstract Fabrication conditions of microporous thermoplastic polyurethane to be used in small‐diameter vascular grafts are studied. Porosity variations due to various factors such as concentration of PU solution, composition of coagulation bath, effect of coagulant temperature, and effect of dis

## Abstract Polyester filament yarns of different Deniers were knitted into tubular fabrics with different densities and thicknesses on a specially designed weft‐knitting machine. The developed tubular fabric was used to reinforce polyurethane vascular graft and thus a kind of composite vascular gr

## Abstract To fabricate a “mechano‐active” tubular scaffold of nonwoven mesh‐type small‐diameter artificial graft made of the synthetic durable elastomer, segmented polyurethane, the fabrication technique of electrospinning on a mandrel under a high rotation speed and transverse movement was used.