Advanced Nanofibrous Materials Manufacture Technology based on Electrospinning
Coordonnateurs : Liu Yanbo, Wang Ce
This book comprehensively addresses advanced nanofiber manufacturing based on electrospinning technology. The principles, relationships between process parameters and structure, morphology and performance of electrospun nanofibers and nanomaterials, and the methods for enhanced field intensity and uniform distribution are discussed. The electric field intensity and distribution during electrospinning is also analyzed based on finite element analysis on both the needle and the needleless electrospinning. Furthermore, the modification techniques for improved nanomaterials strength are covered, aiming to provide effective avenues towards the manufacture of stronger nanofiber or nanomaterial products.
Introduction to electrospinning technology. Theories and principles behind electrospinning. Row materials and preparation for electrospinning solutions. Guiding parameters for electrospinning process. Electric field intensity and distribution during electrospinning. Characterization technology for electrospun materials. Structure and morphology of electrospun nanofibers and materials. Modification on mechanical property of electrospun nanofibers and materials. Development and applications of electrospun products. Recent advancement and issues in electrospinning technology.
Yanbo Liu, PhD is a Professor, holding the degrees of B.S. and M.S. in Textiles Engineering, PhD in Materials Science and Engineering; currently works with Wuhan Textile University, who initiated her research on electrospinning technology in 2007 focusing on large-scale electrospinning technology development. She has published more than 100 papers on academic journals and conferences, applied for 20 patents and received a large amount of research funds from China government and enterprises in China.
Ce Wang received her BS degree from Jilin University in 1982 and PhD in Technische Universität Wien, Austria in 1995. She is currently a professor in Jilin University, China. Her research interests include the applications of electrospun nanomaterials for sensors, environment, and energy devices. She has published over 300 papers and more than 40 patents. She was awarded as China’s New Century Female Inventor in 2004 and received the first prize of Jilin Province Natural Science Award in 2015.
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Date de parution : 03-2021
15.6x23.4 cm
Date de parution : 05-2019
15.6x23.4 cm
Thèmes d’Advanced Nanofibrous Materials Manufacture Technology... :
Mots-clés :
Electrospun Nanofibers; Electrospinning Process; submicro fiber; submicron fiber; Electrospun Fibers; nanomaterials; nanotechnology; nanofiber membrane; nanofiber film; nanofiber nonwovens; Needleless Electrospinning; electrostatic spinning; electrostatic spun; electrospray; electrostatic spray; spinning jets; American Chemical Society; whipping instability; bending instability; Rayleigh instability; Composite Nanofibers; beaded fiber; bead nanofiber; nanofiber productivity; nanofiber product; PVDF Nanofiber; small fiber diameter; tissue engineering scaffold; protective textiles; protective mask; protective respirator; breathable membrane; breathable film; porous membrane; porous film; Melt Electrospinning; enhanced field intensity; Nanofiber Yarn; Nanofibrous Membranes; electrospinning technology; Polymer Nanofibers; advanced nanofiber manufacturing; PCL Nanofibers; uniform distribution; Carbon Nanofibers; PVA Fiber; PVP Fiber; Precursor Nanofibers; Electrospinning Solution; SEM Image; Spin Dope; IOP Publishing; Area Reduction Ratio; Field Intensity Distribution; Electrospinning Jet; Field Intensity; Needle Electrospinning