What happened to fiber in spinning?

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    • 2 posts
    June 18, 2024 2:31 AM EDT

    Fiber spinning is a process used to create fibers from various materials, including polymers, glass, and metals. This process involves extruding a liquid or molten material through tiny holes in a spinneret to form continuous filaments. These filaments are then solidified and collected for further processing into yarns, fabrics, or other textile products. Here’s an overview of what happens to the fiber during the spinning process:

    Types of Fiber Spinning

    1. Melt Spinning:

      • Used for thermoplastic polymers such as polyester, nylon, and polypropylene.
      • The polymer is melted and extruded through the spinneret.
      • The molten filaments are cooled and solidified by air or water.
    2. Solution Spinning:

      • Includes both wet spinning and dry spinning methods.

      Wet Spinning:

      • Used for polymers that need to be dissolved in a solvent (e.g., acrylic, rayon).
      • The polymer solution is extruded into a coagulation bath where it precipitates into solid fibers.

      Dry Spinning:

      • Used for polymers dissolved in volatile solvents (e.g., acetate, spandex).
      • The polymer solution is extruded into warm air where the solvent evaporates, leaving behind solid fibers.
    3. Gel Spinning:
      Used high strength high modulus fibers such as ultra high molecular weight polyethylene(UHMWPE) aramid(Kevlar)
      Polymer gel extruded through spinneret drawn under controlled conditions enhance molecular orientation crystallinity resulting superior mechanical properties

    Steps Fiber Spinning Process :

    1.Preparation
    Raw material either melted dissolved appropriate solvent depending type spinning method used

    2.Extrusion
    Liquid molten polymer forced through fine holes spinneret forming continuous filaments

    3.Solidification
    Filaments solidified cooling(coagulation bath wet spinning evaporation dry spinning )forming stable fibers suitable further processing

    4.Drawing Stretching(Optional)
    Fibers may drawn stretched increase their orientation crystallinity improving tensile strength modulus final product

    5.Winding Collection
    Finished fibers wound onto spools bobbins ready subsequent processes like texturing twisting weaving knitting

    Changes Occurring During Fiber Spinning :

    1.Phase Transition
    Material transitions from liquid molten state solid filament form through cooling evaporation precipitation processes ensuring stability integrity produced fibers .

    2.Molecular Orientation Crystallization
    Drawing stretching steps align polymer chains increasing degree orientation crystallinity within fiber structure enhancing mechanical properties such tensile strength elasticity durability .

    3.Removal Solvents Impurities
    In solution gel spinning methods solvents removed during solidification step ensuring purity quality final product meeting desired specifications performance standards .

    Applications Benefits Fiber Spinning :

    1.Applications :
    Textile Industry : Production synthetic natural fibers used clothing apparel home furnishings industrial textiles

    Medical Devices : Manufacturing biocompatible absorbable sutures scaffolds tissue engineering applications 
    
    Aerospace Defense : High performance lightweight composite materials reinforced with advanced spun fibers providing superior strength stiffness impact resistance
    
    Filtration Separation : Specialized membranes filters made spun micro nanofibers offering precise control over pore size distribution permeability selectivity 
    

    Summary :

    Fiber spinning process transforming raw materials into continuous filaments suitable various applications across diverse industries .It involves preparation extrusion solidification drawing winding steps each contributing specific changes phase transition molecular orientation removal solvents impurities resulting high quality stable durable fibers meeting stringent performance requirements modern manufacturing demands effectively efficiently