中文摘要：

通过熔融共混法制备了一系列的PLA/PAA共混物,考察了PLA/PAA共混体系的流变行为和热性能（结晶行为和热降解行为）.FTIR测试结果证实PLA与PAA分子链之间形成了氢键网络.动态剪切流变测试和DSC测试均表明共混体系的流变行为和冷结晶行为会随着PAA含量的改变而改变,这可能是由于PLA与PAA的氢键作用受到PAA含量的影响.另外,DSC测试证实共混体系中的氢键网络还会受到试样热历史的影响.当PAA含量较低（低于5 wt%）时,PLA/PAA共混体系中PAA与PLA熔体两相的相分离不严重,使得PAA与PLA分子链能够较大限度地接触而形成较强的氢键作用,因而可以明显减缓增塑作用对黏度降低的影响.

英文摘要：

Poly（lactic acid）/poly（acrylic acid） blends （PLA/PAA） were prepared by melt blending. The hydrogen-bonding between PLA and PAA was analyzed by Fourier transform infrared spectroscopy （FTIR）. The rheological properties,thermal behaviors and the stability of PLA/PAA blends were also investigated by dynamical rheological test, differential scanning calorimetry （DSC） and thermogravimetrie analysis （TGA）. The FTIR results indicated that the hydrogen-bonding interaction was existed in PLA/PAA blends between the oxygen atom of earbonyl （--C=O） on PLA and the hydrogen atom of earboxyl acid groups （--COOH） on PAA. The rheologieal behaviors and cold-crystallization behaviors of PLA/PAA blends were changed with the contents of PAA,because the formation of the hydrogen-bonding in PLA/PAA blends was influenced by the contents of PAA. Meanwhile,the hydrogen-bonding networks were also affected by the heating history that the blends underwent. When the content of PAA was lower than 5 wt% , PLA and PAA was partially miscible, which was favorable to the formation of hydrogen-bonding networks between PAA and PLA chains. And the formed hydrogen-bonding networks can partially decrease the effect of plastification of PAA on the viscosity of the blends. However,when the content of PAA was greater than 5 wt% ,the phase separation of melt PAA and PLA became serious,which counteracted the formation of hydrogen-bonding.