Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
5178957 | Polymer | 2016 | 8 Pages |
â¢Firstly synthesized UV-curable waterborne polyurethanes derived from CO2-polyols (CO2-UV-WPUs).â¢Adjustable thermo-mechanical performance of CO2-UV-WPUs.â¢High hydrolysis performance of CO2-UV-WPU.
UV-curable waterborne polyurethanes (CO2-UV-WPUs) with CO2-polyols as soft segment were firstly synthesized. In addition to the good mechanical performance, the coexistence of carbonate and ether moieties in soft segment assured the excellent hydrolysis resistance of CO2-UV-WPU compared with polybutylene adipate glycol based waterborne polyurethane (PBA-UV-WPU). Its retention of tensile strength reached 88% after 15Â h immersion in 1.5% sodium hydroxide solution, while that of PBA-UV-WPU completely lost its mechanical property. The double bond density primarily governed the mechanical performance of CO2-UV-WPU, when it increased from 0.93Â mmol/g to 2.4Â mmol/g, the tensile strength increased from 29Â MPa to 67Â MPa, while elongation at break decreased from 150% to 9.6%, accompanied by the reduction of maximum water swelling percentage from 26.7% to 14.5%. The introduction of CO2-polyol as soft segment not only created a route to produce UV-curable waterborne polyurethane from CO2, but also provided polyurethane with novel value-added performance like good hydrolysis resistance. Moreover, the thermal/mechanical performance and hydrophilicity of CO2-UV-WPUs could be conveniently adjusted by controlling molecular weight of CO2-polyols, ensuring the application feasibility of CO2-UV-WPU.
Graphical abstractA novel UV curable polyurethane with high hydrolysis resistance whose soft segment is consisted of CO2-polyol.Download high-res image (198KB)Download full-size image