Thermogravimetric study for polyurethane materials for biomedical applications

The synthesis and characterization of some new polyethylene glycol (PEG)-containing polyurethane elastomers are described. These materials were evaluated with respect to their potential use as biomaterials, more speciÐcally for their use as blood-or urine-contacting materials. The stability of the m

Shape memory properties provide a very attractive insight into materials science, opening unexplored horizons and giving access to unconventional functions in every material class (metals, polymers, and ceramics). In this regard, the biomedical field, forever in search of materials that display unco

Znterpenetrating polymer networks (IPNs) of polyurethane (PU) and maleimide-terminated polyurethane (UBMZ) were prepared by using a simultaneous polymerization technique. The effects of the UBMI molecular weight and amounts of the UBMZ in the IPNs on the mechanical properties, dynamic mechanical pro

This contribution is the first of a sequence of reports on the recent developments in the field of the so-called "biomaterials", which, of course, are not at all "bio" or living materials but, rather, replace those living materials which have ceased to serve their purpose. The science of biomateria