Lactic acid based poly(ester-urethanes): Use of hydroxyl terminated prepolymer in urethane synthesis

The hydrolysis behaviour of lactic acid based poly(ester-urethane)s has been studied in a bu †er solution of pH 7É00 at 37 and 55¡C. Samples were prepared using a straight two step lactic acid polymerization process. The lactic acid was Ðrst polymerized by condensation with a low molecular weight by

Branched biodegradable poly(ester-urethane) (PEU) was blended with two elastic biodegradable copolymers in proportions 5, 10, 15, and 20 wt % to investigate their effect on this hard and brittle polymer. Copolymer of L-lactide and 1-caprolactone, P(L-LA50/CL50), was synthesized by ring-opening polym

Copolymers of L-lactic acid (LLA) with DL-mandelic acid (DLMA), 4-hydroxybenzoic acid, 4-acetoxybenzoic acid, DL-malic acid, or anhydrous citric acid were synthesized via direct copolycondensation in the presence of 1,4-butanediol, using stannous octoate as catalyst. The effect of the comonomer and

The synthesis of hydroxyproline-based telechelic prepolymers by the condensation polymerization of trans-4-hydroxy-N-benzyloxycarbonyl-L-proline methyl ester was investigated. All the polymerizations were carried out in the melt with stannous octoate as the catalyst and with different diols. The pro

A two-step process for lactic acid polymerization is studied: in the first step the lactic acid is condensation-polymerized to a low-molecular-weight hydroxylterminated prepolymer; and then the molecular weight is raised by joining prepolymer chains together using diisocyanate as the chain extender.

The synthesis of low-molecular-weight (M V w (GPC) õ 72000 g mol) lactic- acid-based telechelic prepolymers by condensation polymerization of L-lactic acid was investigated. All polymerizations were carried out in the melt, using tin(II)octoate as catalyst, different diols, and different polymerizat