Electrospinning mass-produces ultra-fine nanofibers by stretching charged polymer solutions or melts inside strong electrostatic fields. Fibers range from tens to hundreds of nanometers, forming porous membranes with ultra-high specific surface area for medical dressings, lithium battery separators, water filtration films, catalytic substrates and thermal insulation materials.
1. Supply adjustable 0~100kV DC high voltage between spinnerets and collectors to form Taylor cones and uniform nanofiber deposition;
2. Positive/negative polarity switching and dual-output support adapt diverse polymer materials;
3. Precision voltage stability ensures uniform fiber diameter and prevents breakage or bead defects in mass production.
Wide linear voltage tuning, independent bipolar control, low ripple stable output, arc and short-circuit protection supporting multi-nozzle arrays from laboratory trials to large-scale industrial production.
Strong electrostatic fields stretch polymer fluids into ultra-fine nanofibers depositing continuously onto collectors. The resulting porous membranes feature high surface area and porosity ideal for medical filtration, battery separators and advanced functional materials.
Medical wound dressing manufacturing, lithium battery separator production, water ultrafiltration membrane fabrication, catalytic carrier preparation and soundproof nanofiber material production.
