广东费飘职业故本学院 Guangdong Inatitute of Textile Technology Micro-fibers and nano fibers
Micro-fibers and Nano fibers
广东费飘职业故本学院 Guangdong Inatitute of Textile Technology Micro fibers 口 Definition ■ Fibers of<1 denier 口 Manufacturing of microfibers ■ Bicomponent fibers 口Is| and in sea 口 Citrus
Micro fibers Definition ◼ Fibers of < 1 denier Manufacturing of microfibers ◼ Bicomponent fibers: Island in sea Citrus
广东费飘职业故本学院 Guangdong Inatitute of Textile Technology sland in sea d Manufacturing process Suspension of droplets of one component in matrix of the other Two components should have similar melting temperatures Can make composite fiber To obtain the microfiber from the composite fiber, the matrix should be soluble such as polyvinyl alcohol Extremely small fibers possible: <0.1 denier
Island in sea Manufacturing process ◼ Suspension of droplets of one component in matrix of the other ◼ Two components should have similar melting temperatures ◼ Can make composite fiber ◼ To obtain the microfiber from the composite fiber, the matrix should be soluble such as polyvinyl alcohol ◼ Extremely small fibers possible: < 0.1 denier
广东费飘职业故本学院 Guangdong Inatitute of Textile Technology sland in sea 口App| ication ■ synthetic leather ■ specialty wipes ultra-high filtration materials artificial arteries
Island in sea Application ◼ synthetic leather ◼ specialty wipes ◼ ultra-high filtration materials ◼ artificial arteries
广东费飘职业故本学院 Guangdong Inatitute of Textile Technology Citrus or Segmented pie 日 Manufacturing I Two components: noncompatible but with similar Tm such as PET and nylon 6 Citrus like or hollow citrus PET 米8、 NYLON HOLLOW PIE WEDGE -TIPPED TRIL OBAL SEGMENTED CROSS CONJUGATE
Citrus or Segmented pie Manufacturing ◼ Two components: noncompatible but with similar Tm such as PET and Nylon 6 ◼ Citrus like or hollow citrus
广东费飘职业故本学院 Guangdong Inatitute of Textile Technology Nano fibers D Electrospinning of nano fibers ■ Principle a When electrical force at the surface of a polymer solution or polymer melt overcomes the surface tension a charged jets is ejected. ■ Device Materials ■ Characteristics
Nano fibers Electrospinning of nano fibers ◼ Principle When electrical force at the surface of a polymer solution or polymer melt overcomes the surface tension, a charged jets is ejected. ◼ Device ◼ Materials ◼ Characteristics
广东费飘职业故本学院 Guangdong Inatitute of Textile Technology Electrospinning device Molymer soluton Capillary tip Fibcr formation △ High voltage Fiser mat Counter electroce Fromhttp://www.uni-marburgde/phys-chemie/wendorffforschung/fi-elektrospInninge.html
Electrospinning Device From: http://www.uni-marburg.de/phys-chemie/Wendorff/Forschung/F1-Elektrospinning_e.html
广东费飘职业故本学院 Guangdong Inatitute of Textile Technology Electrospinning Materials 口 polyamides, 口 polylactides, a cellulose derivatives a water soluble polymers such as polyethyleneoxide 日 polymer blends 口 polyme lers containing solid nanoparticles or functional small molecules
Electrospinning Materials polyamides, polylactides, cellulose derivatives, water soluble polymers such as polyethyleneoxide, polymer blends polymers containing solid nanoparticles or functional small molecules
广东费飘职业故本学院 Guangdong Inatitute of Textile Technology Nano fibers 0008 PC-SEM Ferrofibers":PA(10‰) Electrospun PVA (10%) and ferromagnetic nanoparticles (3.52%) with SWNT(0. 25%) Electrospun Nomex
Nano Fibers
广东费飘职业故本学院 Guangdong Inatitute of Textile Technology Applications 口 Filtration 口 others
Applications Filtration Others?