Application Example: Continuous Blending and Integrated Pneumetic Conveying Refill in Biaxially-Oriented Film Production for the Packaging Industry

Growth in commodity and specialty biaxially-oriented films for the packaging industry has been steadily growing, with applications requiring simultaneous feeding of a large variety of additives directly into the extruder.


The worldwide film demand is steadily growing. Growth in biaxially-oriented films for the packaging industry is especially strong. Biaxially-oriented films can be divided into two categories:

  • Commodity films, which need to be produced as cost-efficiently as possible due to strong price pressure from the market
  • Specialty films, where a higher price is possible, however this is usually related to higher demands in technology and therefore also higher production costs


There is a clear trend in specialty film production to multi-layer film types, where more and more co-rotating twin screw extruders are utilized. This enables film manufacturers to simultaneously feed a large variety of additives directly into the extruding process, increasing flexibility and reducing production costs. This is very beneficial in the production of multi-layer high barrier films, balanced shrink films, etc.

Typical Process

The production of biaxially-oriented PP, PET, PS, PA, etc. film is a continuous process. In most cases it is a coextrusion process, where up to 6 single and/or twin screw extruders are involved. Usually the base polymer and additives are fed via a continuously operating loss-in-weight feeder into the single screw extruder. A further cost efficient alternative is gravimetric feeding of additive powder directly into a twin screw feeder for optimal dispersion. The melt that passes directly inline via the usual process for cast film, then transfers to longitudinal and transverse stretching elements.

The performance and short term accuracy of the gravimetric feeders is key in this process. This concept gives the producer high flexibility and high quality of the end product, as well as substantial cost savings. When the feeders deliver the desired massflow with an accuracy of ± 0.5% at 2 sigma with a sample time of 5 seconds, the pressure changes at the extruder outlet are minimal, which results in the smooth operation of the film line.    


Depending on the size of the film line and how many layers are involved, the typical flow ranges are as follows:

  • PP Pellets: 100 - 20,000 dm³/hr or 3.5 - 706 ft³/hr
  • Masterbatch Pellets:  5 - 500 dm³/hr or 0.18 - 18 ft³/hr
  • Rework (edge trims):  10 - 5,000 dm³/hr or 0.35 - 180 ft³/hr
  • PET Chips:  10 - 5,000 dm³/hr or 0.35 - 180 ft³/hr
  • Additive powder:  1 - 500 dm³/hr or 0.04 - 18 ft³/hr 

The desired accuracy is typically ± 0.5-1% at 2 sigma for the base resin and ± 0.2-0.5% at 2 sigma for the additives.

Feeding System

For PP/PE base resin pellets and masterbatch pellets, the flexible K4G Continuous Blender can be easily adapted to the characteristics of the bulk material and required feed rates. The K4G is designed for on-line blending of up to six components at low to medium rates. The modular K4G design also allows Premier Pneumatic's conveyors to be directly integrated into the K4G stand to refill the feeders.

A variety of Coperion K-Tron screw feeders are available for use in the K4G system, as well as the new Bulk Solids Pump (BSP) feeders. The BSP’s outstanding feeding performance makes it ideal for a uniform and pulse-free material flow.

Coperion K-Tron’s K4G systems are available in 1, 4, and 6 ingredient versions, specially designed to be mounted directly on the extruder in a highly compact configuration. To facilitate cleaning or material changeover, each K4G feeder easily swings out providing full, unobstructed access. For additive powders, twin screw feeders such as a K-ML-KT20 or K2- ML-T35 can handle most free-flowing to diffcult materials (e.g. sticky, bridge-building).

For PET-chips and rework, which in most cases has an irregular particle shape, a single screw loss-inweight feeder such as a K2-MLS60, K2-ML-S100 or KML-S500 is generally the right choice for the job. As an alternative, a Smart Weigh Belt Feeder such as the SWB-300, with a S100 or S500 pre-feeder, could be utilized. To maintain a steady flow above the single screw extruder, a continuous level monitoring device makes sure that the feeder throughput is automatically adjusted according tio the material consumption of the extruder while a constant ratio of the individual ingredients is guaranteed.

Coperion K-Tron Advantages

Coperion K-Tron’s K4G continuous blending systems with integrated refill guarantee high short term accuracy with a high setpoint turndown. Coperion K-Tron’s advanced Smart Force Transducer (SFT) digital weighing technology offers outstanding short-term accuracy. High resolution weighing and powerful on board digital signal processing ensure precision feeding even at short intervals or in vibration-prone plant environments

Coperion K-Tron’s SmartConnex Control technology ensures long term stability, good repeatability and consistent feeding quality.

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