Poly(Butylene Itaconate) (PBI) was synthesized with itaconic acid (IA) and 1,4-butylene glycol (BOD) by direct esterificationpolycondensation (No.1 method) and stepwise feeding process (No.2 method), respectively. The reaction process of two methods was investigated by determining the acid value, the intrinsic viscosity, the relative molecular mass and its distribution. The results showed that the acid value of synthetic PBI by No.1 method was higher than 40 mg(KOH)/g, the intrinsic viscosity was 8.232 1 mL/g, the molecular weight was 2 889, and the molecular weight dispersion coefficient was 1.614. As for No.2 method of synthetic PBI, the acid value was lower than 39.61 mg(KOH)/g, the intrinsic viscosity was 6.697 3 mL/g, the molecular weight was 2 559, and the molecular weight dispersion coefficient was 1.568. The structure of polyester was confirmed by means of Fourier Transform InfraRed (FT-IR). By comprehensive comparison, stepwise feeding process was the better way to synthesize PBI.

With itaconic acid (IA) and 1,4  butanediol (BDO) as the raw materials, the resultant hydroxyl terminated aliphatic unsaturated polyesters (PBI) were prepared. The unsaturated polyurethane was prepared with PBI as the soft segment and toluene diisocynate (T DI) as the hard segment. The effect of its reaction conditions on the mechanical properties of the unsaturated polyurethane was also investigated. It was found that the film products with the optimum properties were obtained under the material mass ratio o f TDI and PBI 1 ∶ 1.5, the reaction temperature 80 ℃ , optimum reaction time 2 h, with dibutyltin dilaurate in an amount of 1% as the catalyst. Combining with benzoyl peroxide in an amount of 1%,as an initiator, the film of the unsaturated polyurethane was smooth, transparent and level. The hardness was 6H, and the adhesion property was A grade.

2methylidenebutanedioyl dichloride(Itaconyl chloride) was synthesized using itaconic acid and phosphorus pentachloride as raw materials by melting method. The effect of raw material ratio, reaction time, temperature and other process conditions on yield of product was examined. The structure of the product was characterized by IR and 1HNMR .The experiments showed that, when the itaconyl chloride and phosphorus pentachloride molar ratio was 1∶2.2, reaction temperature was 110 ℃ and reaction time was 2 h, the yield of 2methylidenebutanedioyl dichloride can reach 86% and its purity was more than 94%.

A series of biodegradable aliphatic/aromatic copolyesterspoly(butylene terephthalatecobutylene itaconate)(PBTI) were synthesized by melt polycondensation using dimethyl terephthalate (DMT),1,4butanediol(BD) and dimethyl itaconate(DI) as raw materials. The effects of polymerization time, temperature, as well as aliphatic/aromatic mole ratio on physical and thermal properties of the copolyesters were investigated. The structure of the copolyesters was studied by 1HNMR and FTIR. DSC, TGA and GPC analysis clearly indicated that the molecular weight, glasstransition temperature and melting point were influenced by the ratio between DMT and DI in the final copolyesters. In addition, the effect of mole ratio between DMT and DI on the degradability of the copolyesters was studied. Results showed that the degradability of the copolyesters was gradually improved with the increase of the aliphatic units in the chain. 