CO2 derived amino-alcohol compounds for preparation of polyurethane adhesives

Abstract

A series of novel amino-alcohol curing agents for PU adhesives were synthesized from CO2, glycidyl ether and diamine through carbonation and amination reactions. By physically evaluating the compounds through FT-IR and 1H NMR spectroscopy and mechanically analyzing the adhesives through T-peel strength tests, the raw materials have successfully been transformed into curing agents and the curing agents were found to endow the adhesives with specific structures and unique properties. For PVC bonding, compared to the traditional curing agents HDA and HDO, the T-peel strength and medium resistance from the novel amino-alcohol compounds improved. Further analysis revealed distinction in mechanical properties for different curing agents, the trifunctional curing agent exhibited the largest tensile strength and hardness. Moreover, thermal analysis of the adhesives demonstrated the considerable thermal stability to those prepared from HDA and HDO.