中和度对水性硅溶胶/聚氨酯杂化树脂交联性能的影响

WPU/inorganic composite material has been taken as a kind of promising materials,since it has both advantages of organic and inorganic materials.However,the structural difference between organic and inorganic materials resulted in bad compatibility.The bad compatibility not only restricted the function of inorganic particles in polymer,but also caused the inhomogeneous structure as well as inferior properties of composite materials.Thus,good dispersity of inorganic particles in polyurethane was the key factor for obtaining WPU/inorganic composite with excellent properties.The WPU/SiO₂composite emulsion was prepared by sol-gel process,which consisted of an aqueous silica sol with highly branched structure (KS560) and (3-aminopropyl) triethoxylsilane (APTES)-terminated waterborne polyurethane (WPU).The degree of neutralization (DN) of composite emulsion was controlled by the mole ratio of Triethylamine (TEA)/2,2-Dimethylolpropionic acid (DMPA),and the effect ofDNvalue on structure and properties of WPU/SiO₂composite was investigated.The chemical crosslinking between WPU and KS560 was confirmed by²⁹Si NMR and rheological test.In rheological test,the storage modulus of composite emulsion reduced with increasing theDNvalue,since it increased the crosslinking efficiency of WPU and KS560.SEM images found that the addition of KS560 could transfer the stress and prevent cracks in film formation.The smooth of composite film also improved with increasingDNvalue.Moreover,the polysiloxane network was introduced into WPU by KS560,which would improve the thermal stability,water resistance and mechanical properties of the WPU/SiO₂composite.When theDNvalue was 80%,the minimum water absorption of composite was reached to 4%.In addition,an increase inDNvalue could promote the interaction between WPU and KS560,KS560 and KS560,thus the tensile stress and modulus of WPU/SiO₂composite were improved.