Extrusion Basics: Pumps and Lumps, or Life Between the Screw(s) and Die

The pumps I’m talking about are gear pumps, devices that pick up the melt as it leaves the extruder after it has gone through screens and push it forward through the rest of the system—adapter and die, and maybe a static mixer (more on that later). 

They are called gear pumps because they consist of two intermeshing gears; typically the width across the gears is the same as the diameter. They turn in a tightly fitting chamber so that the entering melt gets caught in the teeth of the gears and is carried around between gears and chamber walls to the other side. Nothing goes through the nip of the gears. That nip is virtually sealed because one gear drives the other. Controlling the speed gives precise volumetric displacement, so that whatever the variation in entry, the output is constant in axial flow rate. No surging, no pulsing (from extruder sources). That is the main reason for their use. Their added cost can be justified by savings of material because aim thickness can be lower if the precision is better. Another benefit is reducing the load on the extruder, allowing high-resistance dies without high pressure and consequent high heat development in the screw(s).

The industry often refers to them as melt pumps (melt in, melt out) but I prefer the term gear pump, because an extruder is a melt pump, too, even though it’s pellets in, melt out. 

In operation, the inlet pressure to the pump is preset (e.g., 800 psi) and the screw speed in the extruder is controlled to maintain that pressure lest the pump be starved, which would damage the pump as its drive shaft is lubricated by the melt itself.

Buying a gear pump requires some idea of the pressures expected, as they are sold to match these needs: Light, medium or heavy, referring to the expected differentials across the pump and from inside to outside air. They are sized to match expected output, and the maker should therefore provide the free volume of the pump (cubic centimeters per turn for both gears). From this volume, we can calculate the weight per turn if we have a melt density.

That is the theoretical maximum output. In practice it is slightly less, as some melt is recirculating as shaft lubricant, and may be further reduced by backflow over adjacent teeth and along the gear sides if walls are too thin for the pressure differential (clamshelling).

As a rough rule, if you are getting 90% or more of the theoretical (free volume x rpm) that’s very good—go look for another problem to solve. If you are between 80 and 90%, that’s normal, but in the low 80s you aren’t getting the full benefits. If the ratio of production to theoretical is in the 70s, think about rebuilding or repairing, but first, find out why it’s so low. And if you are below 70%, you may be better off taking the pump out now.

Lumps in your product? The gear pump evens out the axial flow, but doesn’t do any mixing. In fact, if it lowers the pressure inside the extruder, the mixing may actually be worse than without the pump! That’s why pump makers also offer static mixers installed after the pump—after, so the pump pushes it through the mixer, not the extruder. Static mixers are tubes with baffled or otherwise twisted innards, so the flowing melt is split and resplit again and again. They are usually horizontal, and typically one extruder size below the diameter (e.g., 3.5 inches for a 4.5-inch extruder). In retrofitting blown film or any line where neither takeoff nor extruder can be moved easily, they can be inserted vertically, changing height but not horizontal length. 

It is useful but not common to have pressure gauges at both entry and exit. You can also calculate this pressure drop if you have good viscosity data for your material as a function of shear rate and melt temperature.

Lastly, if you have a mixing problem, consider altering materials as well as a mechanical remedy like a static mixer or water inside the screw. Changing a filler type or even just its particle size may help, or adding an internal lubricant, or (for mixtures of melts) getting the viscosities of the components in proportion to the proportions. 

Source: https://www.plasticstoday.com/extrusion-pipe-profile/extrusion-basics-pumps-and-lumps-or-life-between-screws-and-die/86531552058585

Share This Posting
GET A QUOTE
Call Today!
585.768.8158
GET THE INFO
INDUSTRY BEST
Service - Quality Control - Custom Manufacturing
Intlcert ISO 9001
    
What We Do
Serving industry with quality stock and custom thermoplastic tubing, fittings and fabricated extruded products for over 30 years!
...more
Contact Info
 
Copyright © LeRoy Plastics, Inc. 2024 - All rights reserved
Website Design by Scriptable Solutions.