What Causes Die Buil-Up in Plastic Extrusion and How Can You Prevent It?

John Li
January 21, 2025
4:15 am

Die build-up, often referred to as die drool, die bleed, or plate-out, is a frequent challenge in plastic extrusion that can compromise product quality and hinder production efficiency. This phenomenon occurs when material accumulates on the die, particularly at or near the die exit, due to factors such as die design, material properties¹, or process conditions. Gaining insight into its causes and implementing effective prevention strategies are essential for ensuring smooth, high-quality extrusion processes.

Die build-up in plastic extrusion is primarily driven by die exit geometry², material properties, and process conditions like high pressure and velocity, but can be mitigated through optimized die design, process aids, and material control.

Die build-up can be completely eliminated with proper die design.False

While proper die design can significantly reduce die build-up, it may not eliminate it entirely due to other contributing factors like material properties and process conditions.

Material properties play a crucial role in die build-up.True

Certain materials, such as polymer blends or those with broad molecular weight distributions, are more prone to die build-up due to their chemical composition or processing characteristics.

Table of Contents Hide

1. What Causes Die Build-Up in Plastic Extrusion?
2. How Can You Prevent Die Build-Up?
3. What Are the Common Materials Affected by Die Build-Up?
4. What Are the Steps to Troubleshoot Die Build-Up?
5. Conclusion

What Causes Die Build-Up in Plastic Extrusion?

Die build-up stems from a combination of factors that interact during the extrusion process. Here’s a closer look at the primary culprits:

Several metal blocks with various hole configurations, stacked on a surface — Extrusion mold

Die Exit Geometry: The shape and angle of the die exit significantly influence build-up. Research shows that sharp edges or converging die exits, such as a 90° angle, can increase die lip build-up (DLBU). In contrast, a beveled exit (e.g., 15° for HDPE) can reduce it by alleviating melt pressure and velocity. Even minor imperfections, like a small radius of 0.010 inches at the die exit, can trigger surface tearing and build-up with certain polymers Effect of die exit geometry on internal die drool phenomenon during linear HDPE melt extrusion; Sharper Dies Make for Smoother Extrusions | Plastics Technology.

Material Properties: Polymers with additives, inorganics, or broad molecular weight distributions (MWD) are particularly susceptible. For instance, moisture in the material can accelerate component separation under high shear and temperature, leading to build-up. Materials like HDPE are prone to this issue due to thermally induced degradation that enhances melt elasticity NOVA-Chem-Tech-Bulletin-Die-Lip-Buildup-FINAL.pdf; Investigation of die drool phenomenon for HDPE polymer melt.

Eight different types of plastic pellets in varying colors and shapes — Extrusion raw materials

Process Conditions: High melt pressure and velocity can create vacuums or vortices that draw lighter components to the die lips, exacerbating build-up. This is especially evident in high-speed extrusions or when processing materials with varying rheological profiles.

Die build-up only occurs in high-speed extrusion processes.False

While high-speed processes can worsen die build-up, it can also occur in slower processes depending on die design and material properties.

How Can You Prevent Die Build-Up?

Preventing die build-up requires a proactive, tailored approach. Here are some proven strategies:

A metallic rectangular component with multiple circular openings and engraved markings — Extrusion mold

Optimize Die Design: Adjusting the die exit to a diverging shape, such as a 15° bevel for HDPE, reduces melt pressure and velocity, minimizing build-up. Testing these modifications on smaller equipment first and consulting machinery manufacturers is advisable NOVA-Chem-Tech-Bulletin-Die-Lip-Buildup-FINAL.pdf.
Use Process Aids: Additives that reduce melt fracture can also mitigate die build-up, offering a flexible solution without major equipment changes.
Control Material Moisture: Drying materials to below 0.05 wt% moisture prevents separation and build-up, particularly in polymer blends. Matching components with similar rheological profiles further reduces risks.

A pile of small black cylindrical plastic pellets scattered on a white background — extrusion raw materials

Apply Die Coatings: Uniform metallic coatings on the die interior resist abrasion and polymer adhesion, though they may need periodic re-coating.
Regular Maintenance and Cleaning: A routine schedule to inspect and clean the die prevents build-up from escalating, including checking for wear and ensuring proper alignment.

Process aids are the most effective method to prevent die build-up.False

While process aids can help, the best prevention method varies depending on the specific cause, such as die design or material properties.

What Are the Common Materials Affected by Die Build-Up?

Some materials are more prone to die build-up³ due to their inherent characteristics. Here’s a breakdown:

Material	Susceptibility to Die Build-Up	Notes
HDPE	High	Prone due to thermal degradation and die swell.
LDPE	Moderate	Affected by flow properties and moisture content.
PP	Moderate	Influenced by stereoisomerism and molecular weight distribution.
Polymer Blends	High	Separation under shear leads to significant build-up.

HDPE (High-Density Polyethylene): Highly susceptible due to die swell and thermal degradation effects on melt elasticity⁴.
LDPE (Low-Density Polyethylene): Moderately affected, often linked to flow properties and moisture.
PP (Polypropylene): Varies by grade, with broader MWD increasing susceptibility.
Polymer Blends: High risk due to component separation under shear and temperature.

All materials are equally susceptible to die build-up.False

Materials like HDPE and polymer blends are more prone due to their specific properties, while others may be less affected.

What Are the Steps to Troubleshoot Die Build-Up?

When die build-up occurs, a structured approach can pinpoint and resolve the issue:

Two aluminum cube-shaped mechanical devices with holes and grooves on a black background — Extrusion mold

Isolate the Source: Remove blend components individually to identify the culprit material.
Substitute the Primary Polymer: Test a different polymer to determine if the issue is material-specific.
Inspect the Die Exit: Check for wear, damage, or improper geometry contributing to build-up.
Evaluate a Wider Die Exit: Temporarily use a wider exit to assess geometry’s role.
Analyze Build-Up Composition: Examine the build-up to identify accumulating components and adjust the formulation.

Troubleshooting die build-up always requires replacing the die.False

Many issues can be resolved through process or material adjustments without replacing the die.

Conclusion

Die build-up in plastic extrusion is a complex challenge that affects product quality and efficiency. By addressing its causes—die exit geometry, material properties, and process conditions—and applying solutions like optimized die design, process aids, and material control, manufacturers can keep it in check. Regular maintenance and systematic troubleshooting further ensure smooth operations.

Material properties are key to preventing die build-up. Learn more about how they influence extrusion processes and product quality. ↩
Die exit geometry plays a significant role in extrusion quality. Discover how optimizing it can reduce build-up and enhance production. ↩
Understanding die build-up is crucial for improving extrusion quality and efficiency. Explore this link for in-depth insights and solutions. ↩
Melt elasticity plays a vital role in processing plastics. Discover how it impacts production and quality in this informative link. ↩