Papers by Keyword: Mats

Abstract: A triple liquor system (Poly(Butylenes Succinate-co-bytylene Terephthalate) (PBST)/ iso-propylalcohol (IPP)/ chloroform (CF)) was electrospun to fabricate porous non-woven mats directly. The morphology of the porous mats were observed by SEM(Scanning Electron Microscope). The applied voltage is investigated as a parameter may affect the morphology of the porous structure.

Abstract: The main purpose of determining excellent performance of the system of emulsion through the chemical methods (MATS surface treatment)on soy-protein chemically modified, add a small amount of coupling agent as a horizontal cross-linker, and further enhance its water resistance and the strength of cement, in order to higher requirements. Research will be used description the solid content etc. of polymerization process used measure weight、viscosity etc., and analysis of particle structure and shape by TEM, SEM, analysis the surface properties of particles by FTIR, and ascertain by measuring adhesion properties of different emulsion on the same substrate by strength capability.

Abstract: A new attempt is made for application of the NafionTM nanofiber mat prepared by the electrospinning process to solve the main disadvantage of slow response speed of ionomer-ionic liquid transducers. The measured conductivities of water hydrated Nafion electro-spun fibers are 16.8 mS/cm, which are lower than the nominal 110 mS/cm that of H+ Nafion membranes. The uptake is measured to be around 250 wt % compared to 58 wt % obtained in Nafion films. The ionic conductivity of 110 wt % swollen ionic liquids-Nafion mat composite is computed to be 0.9 mS/cm compared to 0.3 mS/cm in ionic liquid-Nafion membrane composite. The speed of response in actuators with an ionic liquid- NafionTM mat is 1.34 %/s compared to 0.88 %/s for that in ionic liquid NafionTM film transducers.

Abstract: Bioceramic fibres, scaffolds and mats are important structures in biomedical applications. Electrohydrodynamic routes are relatively new for processing advanced materials and in this paper we use electrospinning to prepare zirconia fibres diameter down to 200nm and hydroxyapatite (HA) fibres down to 1$m. Zirconia-polymer and nHA-polymer composite scaffolds structures (mats) with 400-1000 $m windows were also prepared.