Thermoplastic Resin Compounds: Color
Color plays a significant role in the compounding of plastic materials, as it enhances the visual appeal and functionality of plastic products. This white paper aims to explore the concept of color, its importance in compounding plastic, and the benefits of compounding in color compared to coloring at the press. Furthermore, it will discuss the color matching process and differentiate between critical and non-critical color applications.
What is Color and Why is it Important in Compounding Plastic?
Color is not an inherent property of objects but rather a perception of energy and specific wavelengths of light that reach our eyes. Our brains interpret these wavelengths and create the experience of color. In the context of plastic compounding, colorants are added to raw or natural plastics to produce various colors according to customer requirements. The importance of color in compounding plastic can be summarized as follows:
Object and Brand Recognition– Colored plastic enhances object recognition and promotes brand identification. By incorporating specific colors, manufacturers can create distinct visual cues that differentiate their products from competitors.
Improved Usability– Color can improve the usability of plastic products by enhancing their visibility, facilitating easy identification, and simplifying the operation or handling of objects. For example, safety red or orange can be employed to warn of hazardous conditions.
Color Consistency– Compounding plastics in color ensures consistent color properties from shot to shot. This eliminates variations such as swirls or streaks that can occur when coloring at the press, leading to superior product quality and customer satisfaction. Additionally, there are other benefits to compounding in color vs. coloring at the press such as cost savings and economies of scale. The method chosen for introducing color into plastic materials can have a significant impact on the efficiency, quality, and consistency of the coloring process. Compounding in color (pre-colored resins) and using masterbatches (color concentrates) are two common approaches.
The benefits of compounding in color:
Compounding in Color
Compounding in color (pre-colored resins) involves custom compounding on an extruder, where the compounder maintains control over the color. This method offers several advantages:
1) Compounding in color is best suited for critical color applications that require tight color tolerance. It ensures precise color control, allowing manufacturers to meet stringent requirements.
2) Pre-colored resins can be used as they are, requiring fewer steps in the material preparation process. This simplifies the manufacturing workflow and reduces the potential for human error associated with manual mixing.
3) The pigments and/or dyes used in pre-colored resins are completely dispersed and polymerized into the resin. This results in uniform color distribution, eliminating variations such as swirls or streaking. Additionally, lot-to-lot consistency ensures color reliability.
4) Compounding in color eliminates the need to purchase and store separate color concentrates. It also reduces setup time and streamlines production, leading to shorter lead times. Manufacturers can rely on pre-colored resins to achieve consistent and guaranteed color matches.
5) The compounding process in color does not significantly impact the engineering properties of the base resin. This minimal impact on engineering properties allows manufacturers to maintain desired material performance while achieving the desired color.
Using Masterbatches
Using masterbatches involves blending color concentrates with the base resin at the molding press or extruder. Although this method is commonly used, it presents certain challenges:
1) The carrier resin of the color concentrate must be compatible with the base resin being colored. Incompatibility between the carrier resin and the base resin can lead to issues such as reduced processability, compromised engineering properties, and variations in color consistency.
2) Masterbatch coloring requires additional setup time to mix and blend the color concentrate with the base resin before starting the production run. This manual blending process introduces the potential for human error and variations in color distribution.
3) The choice of carrier resin in masterbatch coloring can impact the engineering properties of the base resin if a non-compatible carrier is used. Additionally, the presence of color concentrates can affect the processability of the material, potentially leading to difficulties in conveying and processing.
4) Masterbatch coloring allows for customization of color by adjusting the letdown ratio of the color concentrate to the base resin. This flexibility can be beneficial when multiple colors or variations are required.
5) Masterbatch coloring allows for the consolidation of resins, as various colors can be achieved by using a single base resin with different color concentrates. This reduces the need to maintain separate inventories of pre-colored resins but requires careful management of color concentrates and their respective carriers.
What is a Color Match and Why are Some Critical vs. Non-Critical?
Color matching is the process of using appropriate pigments and dyes to produce or replicate a specified color. Depending on the application, some color matches are deemed critical, while others are considered non-critical. The distinction between critical and non-critical color applications is as follows:
1) Critical Color Applications Critical color applications involve mating parts or highly visible applications where color precision is crucial. Industries such as appliances, automotive, and cosmetics often require stringent color tolerances to ensure consistent brand identity and customer satisfaction.
2) Non-critical color applications encompass parts such as dunnage, internal components, painted parts, and parts not directly visible to end users. While color consistency is still important for product quality, the tolerances may be more relaxed compared to critical color applications.
3) To ensure successful color matching, it is essential to understand the customer’s specific color approval process. This includes knowledge of their color standards, requirements, and any specified color systems such as Pantone, RAL, or Munsell. Additionally, considerations such as heat resistance, UV and weathering fastness, migration fastness, and compliance with FDA requirements should be considered.
Color Matching Process
The color matching process begins with a color match request, which can involve replicating an existing part molded from a competitor’s resin or creating a new color based on specific color standards. Before initiating the color matching process, careful selection of pigments and dyes is essential to meet the desired color standards. Factors such as heat resistance, UV and weathering fastness, migration fastness, and compliance with FDA requirements should be considered to ensure the suitability of the chosen colorants.
Color is a vital aspect of plastic compounding, impacting the aesthetics, usability, and brand recognition of plastic products. Compounding in color offers advantages such as precise color control, ease of use, consistency, reduced costs, and minimal impact on engineering properties. While masterbatch coloring provides flexibility, it introduces challenges such as compatibility issues, potential variations, and impact on material properties.
Understanding the distinction between critical and non-critical color applications allows manufacturers to meet specific requirements and ensure customer satisfaction. The color matching process requires careful consideration of color standards, pigments, dyes, and compliance with various requirements to achieve accurate color reproduction. By prioritizing the importance of color in compounding plastic, manufacturers can deliver high-quality products that meet customer expectations.