Plastic extrusion is a process for converting plastic materials from solid to liquid states and reconstituting them as finished components. First, plastic pellets are gravity fed from a hopper into a jacketed screw. As the screw turns about its axis, it transports, melts, and pressurizes the plastic. From there, the molten material is forced through a die that shapes it into a specified cross-section, producing parts with a potentially wide range of lengths. During extrusion, plastics transform from solid to liquid and back again without sacrificing their distinctive properties. As a result, scrap parts can be ground and re-extruded with minimal degradation, making extrusion a popular method for reducing or recycling plastic waste.
Raw Thermoplastic Resins
Many plastic resin manufacturers sell both virgin and recycled goods made from extruded scrap that has been re-melted and returned to pellet form. These companies often purchase excess stock from production runs, obsolete parts, or unused resins for re-pelleting. This type of recycling can be a cost-effective and valuable method of eliminating industrial plastic waste.
In lieu of recycling, virgin thermoplastic resins can be purchased with laboratory certifications of purity, and standard technical grades are also available for general use. In addition, biodegradable plastics are increasingly prevalent, especially in blow-molded bottle production.
Resin manufacturers may add colorants, enhancers, or flock to their material in preparation for shipping. Subsequently, when fabrication companies receive the plastic stock, it is ready to be poured into the hoppers and extruded without little further pretreatment.
Single Screw Extrusion Machinery
There are numerous hardware considerations that can influence the quality of an extrusion. For example, screw geometry, screw rotation speed, and barrel heater temperature must be calibrated to suit the specific type of plastic being fabricated. Incompatible settings may hinder production or even damage the equipment.
As the main component of an extruder, the screw handles several tasks, including moving, melting, and pumping the plastic before it sends it through the die. A motor-driven gearbox with variable speeds usually turns the screw, which is enclosed in a tight fitting barrel. The mechanism is divided into three sections tailored to perform a sequence of specific tasks.
The feed section, located at the rear of the screw apparatus, contains a hopper that delivers resin pellets into the machine. As the screw turns, it draws the plastic forward with threads, or “flights.” Barrel heaters help the plastic develop a tacky skin to improve friction between the plastic and the barrel wall. Without this friction, it would be difficult for the plastic to achieve lateral movement.
As the plastic moves forward, it enters the transition, or melt, section. In this stage, the root diameter of the screw increases, while the flights decrease in size in order to melt the plastic by compressing and shearing it against the barrel wall.
Read more: The Plastic Extrusion Process