Effects of surface modification of β-CaSiO3 on electrospun poly(butylene succinate)/β-CaSiO3 composite fibers

In this experiment, pure PBSU fibers, PBSU/12.5% β-CaSiO₃, and PBSU/25% β-CaSiO₃ composite fibers were fabricated by electrospinning. In order to investigate the effects of surface modification of β-CaSiO₃ on composite fibers, β-CaSiO₃ nanowires were surface esterified using dodecyl alcohol. SEM micrographs showed that composite materials with modified β-CaSiO₃ have homogeneous fibrous structures similar as that of pure PBSU fibers, while the fibers containing unmodified β-CaSiO₃ were inhomogeneous and much larger in diameter, and also junctions where β-CaSiO₃ agglomerated could be found. Mechanical testing showed that with the addition of unmodified β-CaSiO₃ into PBSU matrix, the tensile strength of fibrous materials decreased obviously, and the decrease degree increased with increased β-CaSiO₃ content. However, the tensile stresses of composite materials after surface modification of β-CaSiO₃ turned back and increased about 40% compared to those containing unmodified β-CaSiO₃. All of these results suggested surface modification of β-CaSiO₃ was an effective approach to obtain composite fibrous materials with better morphologies and enhanced mechanical properties, and this method is supposed to be feasible in other fibrous material systems.