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Masterbatch

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Masterbatch (MB) is a solid additive for plastic used for coloring plastics (color masterbatch) or imparting other properties to plastics (additive masterbatch). A liquid dosage form is called liquid color. Masterbatch is a concentrated mixture of pigments and/or additives encapsulated during a heat process into a carrier resin which is then cooled and cut into a granular shape. Masterbatch allows the processor to colour raw polymer economically during the plastics manufacturing process.

The alternatives to using masterbatches are buying a fully compounded material (which may be more expensive and less open to e.g. color variability of the product), or compounding from raw materials on site (which is prone to issues with achieving full dispersion of the colorants and additives, and prone to preparing more material than what is used for the production run). In comparison with pure pigments, masterbatches require more storage space and their lead times are longer. Another disadvantage is additional exposure of heat ("heat history") to both the carrier and the additive; this may be important e.g. for marginally thermally stable pigments.[1]

As masterbatches are already premixed compositions, their use alleviates the issues with the additive or colorant clumping or insufficient dispersion. The concentration of the additive in the masterbatch is much higher than in the end-use polymer, but the additive is already properly dispersed in the host resin. In a way their use is similar to uses of ferroalloys for adding alloying elements to steels.

The use of masterbatches allows the factory to keep stock of fewer grades of the polymer, and to buy cheaper natural polymer in bulk.

The masterbatches can be fairly highly concentrated (in comparison with the target composition), with high "let-down ratios"; e.g. one 25 kg bag can be used for a tonne of natural polymer. The relatively dilute nature of masterbatches (in comparison with the raw additives) allows higher accuracy in dosing small amounts of expensive components. The compact nature of the grains of solid masterbatches eliminates problems with dust, otherwise inherent for fine-grained solid additives. Solid masterbatches are also solvent-free, therefore they tend to have longer shelf life as the solvent won't evaporate over time. The masterbatch usually contains 40-65% of the additive, but the range can be as wide as 15-80% in extreme cases.[1]

The carrier material of the masterbatch can be based on a wax (universal carrier) or on a specific polymer, identical or compatible with the natural polymer used (polymer-specific). E.g. EVA or LDPE can be used as carriers for polyolefins and nylon, polystyrene can be used for ABS, SAN, and sometimes polycarbonates. When a carrier different than the base plastic is used, the carrier material may modify the resulting plastic's properties; where this could be important, the carrier resin has to be specified. The usual ratio of masterbatch to the base resin is 1 to 5 percent. Several masterbatches (color and various additives) can be used together.[1] The carrier can also double as a plasticizer (common for liquid masterbatches) or a processing aid.

The machines are usually fed with premixed granules of the host polymer and the masterbatch. The final mixing then gets done in the screw and extrusion part of the machine. This is sometimes prone to adverse effects, e.g. separation of the masterbatch and the base material in the machine's hopper. The masterbatch can be also added directly to the machine's screw, as a free-flowing solid or in case of a liquid masterbatch by e.g. a peristaltic pump. Such use of liquid masterbatches allows highly accurate dosing and quick change of color between machine runs.[2][3]

Masterbatches can be used in most processes, except rotational molding and Plastisol and other liquid resin systems.

How is masterbatch produced?

  1. Weighing
  2. Mixing
  3. Twin screw extruding
  4. Cutting and cooling
  5. Sieving
  6. Bagging

Advantages of using Masterbatch in plastic manufacturing

Masterbatch brings many advantages for the final plastic products:

PRODUCTIVITY:

Masterbatch can increase volumetric output (as a result of thermal conductivity & volumetric expansion to temperature). In addition, it has ability to downgauge due to higher film physical properties.

TOTAL COST SAVE:

With the large percentage of CaCO3 powder in component, masterbatch helps manufacturers reduce material cost by using less energy to run the machine due to higher CaCO3 specific heat.

PHYSICAL PROPERTY:

Masterbatch helps plastic improve a lot of physical property such as:

  • Higher toughness
  • Flexural stiffness
  • Adhesion
  • Printability[4]

Applications of masterbatches

Additive masterbatches modify various properties of the base plastic:[5]

Masterbatch is used in the following areas:

  • Blown film & lamination
  • PP raffia/Yarn
  • PP non-woven fabric
  • Blow molding
  • Injection molding
  • Thermoformed sheet
  • HDPE/PP pipe extrusion
  • Polyester and Nylon yarn

Notes

  1. ^ a b c Kutz, M. (2011). Applied Plastics Engineering Handbook: Processing and Materials. William Andrew. p. 439. ISBN 9781437735147. Retrieved 2017-02-18.
  2. ^ Whelan, A. (2012). Polymer Technology Dictionary. Springer Netherlands. p. 238. ISBN 9789401112925. Retrieved 2017-02-18.
  3. ^ Wheeler, I.; Rapra Technology Limited (1999). Metallic Pigments in Polymers. RAPRA Technology. p. 59. ISBN 9781859571668. Retrieved 2017-02-18.
  4. ^ European Plastic, Company. "The ways filler masterbatch benefits to plastic manufacturers". {{cite web}}: |first= has generic name (help)
  5. ^ "CESA Additive masterbatches" at the Clariant web site". clariant.masterbatches.com. Archived from the original on 2012-03-28. Retrieved 2017-02-18.