Plastic Injection Mold News

Choosing plastic colorants

The effect of colorants on injection molded plastic parts is complex. Though rarely at the top of the list of considerations in project planning, it should be addressed at the material selection stage. The process requires several important steps. Coloring selection will depend on factors including the actual plastic involved and the final application, which may impose demands on durability, environmental factors and cost.

Relevant plastic properties include melt flow rate, melt or processing temperature, transparency, structure (crystalline or amorphous), and the reinforcements and fillers being used.

Colorants can be dyes or pigments. Pigments do not dissolve into the plastic, whereas dyes go into solution in the plastic and are easily mixable. They are used to color transparent plastics and where powerful tinting is needed. Dyes give brilliant color, yet do not obscure surface imperfections as well as pigments do. Dyes also tend not to perform well in outdoor applications.

Pigments are partially soluble (organic) or insoluble (inorganic). Organic pigments are more effective than inorganic ones for tinting capacity and coloring strength, creating brighter and glossier colors at lower percentages (typically 0.2-0.5% in contrast with around 2%). They can also be used to color transparent plastics. Inorganic pigments are less likely to migrate than dyes and organic pigments, so they are used to color plastics that require a high level of opacity. Inorganic pigments also have superior heat resistance and weathering properties compared to both dyes and organic pigments. However, some inorganics are perceived as health hazards and, as a result, industry is shifting towards organic pigments.

Effects of colorants on polymer properties

Adding colorants to plastic can affect properties of the plastic part so it is important to consider the compatibility between the chemistry of the polymer and the chemistry of the colorant. The effect of colorants on the properties of the polymer also depends on the amount of colorant.

Some of the compounds in colorants can break down the chemistry of the polymer and weaken original properties, such as impact resistance. The high heat used in the injection molding process can also influence the degree to which the colorant affects the polymer. The colorant itself must also be capable of surviving the high processing temperature. An individual colorant may affect one polymer differently than another. The interaction between polymer and colorant can also be affected by other additives. For example, a polycarbonate otherwise unaffected by a colorant may have a different reaction to it when a flame retardant is added.

There are also several different methods of coloring plastics, including masterbatch, compounding, surface coating and dry blending. The method used can influence the mechanical properties of the plastic. For example, in the masterbatch method, pellets of natural color would be blended with a masterbatch of pellets with a high pigment content. Because most polymers do not tend to mix well with other polymers, care must be taken to ensure material compatibility.

Different colorants can affect a polymer in different ways. Transparent colors can be made with dyes which may affect the polymer structure less than the pigments used in opaque colors. Pigments are made of particles, and the size of those particles can impact the performance of the material. Thus, moulding the same part in different colors can result in differing part dimensions, which can be important if very tight tolerances are critical.


The degree of crystallinity and the speed of crystallization determine the final properties of a plastic part. Organic pigments are known to influence these parameters during the cooling phase of plastic processing, particularly in HDPE injection moulding.


Usually, transparency is improved by reducing pigment particle size as much as possible. This is achieved by surrounding the particles as soon as they are formed with a coating, which prevents the growth of crystals. The most common products used for this coating are rosin or rosin derivatives. The dispersion process can also influence transparency, as it involves breaking up agglomerates of particles to individual primary particles.

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