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Preparation of flexible hollow TiO2 fibrous membranes for thermal-insulation applications by coaxial electrospinning

Lin Wang, Dehua Ma, Chonghe Xu, Xinzhu Gan, Pinghui Ge, Luyi Zhu, Xinqiang Wang, Yadong Lv

2023Ceramics International36 citationsDOIOpen Access PDF

Abstract

With the increasingly serious issues of energy conservation and emission reduction, hollow fibers have attracted wide attention as materials that have structural advantages in terms of thermal insulation . Herein, we report the preparation of flexible hollow TiO 2 fibrous membranes via coaxial electrospinning . To optimize the thermal-insulation performance of the fibers, hollow fibers with different diameters and pore sizes were prepared by adjusting the feeding rate of the core spinning solution. Optimum conditions were achieved at a feeding rate of 2 mL/h for the shell solution and 0.4 mL/h for the core solution. The hollow fibers had a compact tube wall structure and good mechanical properties , and the tensile strength of the fibrous membranes reached 0.652 ± 0.119 MPa. In addition, the hollow fibrous membranes have excellent thermal insulation properties with an average reflectance of more than 89% and a room temperature thermal conductivity of less than 0.0294 ± 0.00015 W m −1 K −1 . In practical experiments, the temperature can be reduced from 1174.6 to below 273.6 °C using 15-mm-thick fibrous membranes, which confirms its excellent thermal insulation . Flexible hollow TiO 2 fibrous membranes have a wide range of insulation applications.

Topics & Concepts

Materials scienceComposite materialMembraneSpinningThermal insulationCoaxialThermal conductivityUltimate tensile strengthElectrospinningThermalCore (optical fiber)PolymerMechanical engineeringBiologyMeteorologyLayer (electronics)GeneticsEngineeringPhysicsAerogels and thermal insulationTransition Metal Oxide NanomaterialsAdvanced Sensor and Energy Harvesting Materials
Preparation of flexible hollow TiO2 fibrous membranes for thermal-insulation applications by coaxial electrospinning | Litcius