

GP20 Plastic Shredder
Convert plastic waste into uniform flakes ready for extrusion, material testing, and development.
GP20 combines shredding and granulation to produce consistent in-house feedstock for labs, R&D, and pilot production. It bridges the gap between plastic waste and controlled extrusion.

Built for Recycling, Material Preparation, and Extrusion
GP20 prepares plastic waste for its next life by producing uniform flakes for extrusion, testing, recycling, and material development. It provides reliable in-house feedstock for research and pilot-scale production.

Built for Recycling, Material Preparation, and Extrusion
GP20 prepares plastic waste for its next life by producing uniform flakes for extrusion, testing, recycling, and material development. It provides reliable in-house feedstock for research and pilot-scale production.
Supported Polymer Materials
Process a wide range of thermoplastics to produce consistent material for recycling, testing, extrusion, and other downstream workflows.
PET
Widely used in packaging and recycling applications, making it well suited for regrinding and reuse.
HDPE
Frequently used in packaging and industrial containers, with excellent suitability for recycling and reprocessing.
PVC
Designed for construction and industrial applications that require stable, controlled processing conditions.
LDPE
Used extensively in flexible packaging, making it ideal for recycling, shredding, and material recovery.
PP
Used across packaging and industrial applications, making it ideal for recycling, compounding, and material reuse.
PS
Commonly used in packaging and insulation applications, typically processed through controlled recycling environments.
PEEK
High-performance polymer for demanding industrial applications requiring precise material preparation.
Various plastics
Covers engineering polymers like PA and PC, along with specialty materials used in advanced applications.
PET
Widely used in packaging and recycling applications, making it well suited for regrinding and reuse.
HDPE
Frequently used in packaging and industrial containers, with excellent suitability for recycling and reprocessing.
PVC
Designed for construction and industrial applications that require stable, controlled processing conditions.
LDPE
Used extensively in flexible packaging, making it ideal for recycling, shredding, and material recovery.
PP
Used across packaging and industrial applications, making it ideal for recycling, compounding, and material reuse.
PS
Commonly used in packaging and insulation applications, typically processed through controlled recycling environments.
PEEK
High-performance polymer for demanding industrial applications requiring precise material preparation.
Various plastics
Covers engineering polymers like PA and PC, along with specialty materials used in advanced applications.
Inside the Workflow
From material input to extrusion-ready feedstock.

Material Preparation
Break down plastic waste, failed prints, and raw materials into consistent flakes for recycling and material recovery.

Feedstock Standardization
Produce uniform material input to improve feeding, handling, and extrusion consistency.

Workflow Integration
Process materials for use in extrusion, testing, validation, and recycling workflows.

Material Preparation
Break down plastic waste, failed prints, and raw materials into consistent flakes for recycling and material recovery.

Feedstock Standardization
Produce uniform material input to improve feeding, handling, and extrusion consistency.

Workflow Integration
Process materials for use in extrusion, testing, validation, and recycling workflows.
Designed for Controlled Output
Transform plastic waste into consistent, process-ready flakes that serve as a reliable feedstock for extrusion and material development workflows.
- Shreds plastic into uniform pieces suitable for further processing and testing
- Helps maintain consistent particle size for improved handling and repeatability
- Prepares materials for extrusion, recycling, and lab workflows
- Suitable for use in R&D, lab, and pilot environments

Designed for Controlled Output
Transform plastic waste into consistent, process-ready flakes that serve as a reliable feedstock for extrusion and material development workflows.
- Shreds plastic into uniform pieces suitable for further processing and testing
- Helps maintain consistent particle size for improved handling and repeatability
- Prepares materials for extrusion, recycling, and lab workflows
- Suitable for use in R&D, lab, and pilot environments
Adaptive Cutting Control
Configure the blade setup to match different material types, geometries, and toughness levels for optimal shredding performance.
- Interchangeable blade configurations allow adjustment based on material characteristics
- Multiple tooth options handle both softer plastics and tougher, more rigid materials
- Enables more consistent output across different input types and geometries
- Suitable for research, recycling, and material preparation workflows

Adaptive Cutting Control
Configure the blade setup to match different material types, geometries, and toughness levels for optimal shredding performance.
- Interchangeable blade configurations allow adjustment based on material characteristics
- Multiple tooth options handle both softer plastics and tougher, more rigid materials
- Enables more consistent output across different input types and geometries
- Suitable for research, recycling, and material preparation workflows
Smart Feeding System
Achieve consistent shredding performance through intelligent automation that adjusts to material input and processing conditions.
- Sensor-based control adapts feeding speed based on material resistance and flow
- Automatic reversal helps prevent jams and maintain continuous operation
- Helps maintain stable processing across different material types
- Reduces manual intervention during operation

Smart Feeding System
Achieve consistent shredding performance through intelligent automation that adjusts to material input and processing conditions.
- Sensor-based control adapts feeding speed based on material resistance and flow
- Automatic reversal helps prevent jams and maintain continuous operation
- Helps maintain stable processing across different material types
- Reduces manual intervention during operation
Reliable and Safe Performance
Safe, reliable operation for lab, R&D, and pilot environments across diverse materials and workflows.
- Enclosed hopper design reduces direct contact with moving components
- Designed in line with safety requirements for controlled environments
- Enables stable and repeatable operation during material processing
- Suitable for testing, recycling, and material preparation workflows

Reliable and Safe Performance
Safe, reliable operation for lab, R&D, and pilot environments across diverse materials and workflows.
- Enclosed hopper design reduces direct contact with moving components
- Designed in line with safety requirements for controlled environments
- Enables stable and repeatable operation during material processing
- Suitable for testing, recycling, and material preparation workflows
System Design

GP20 Hopper
The Hopper provides stable, controlled feeding into the shredding process. Designed for a wide range of thermoplastics and input forms, it ensures smooth material intake while minimizing clogging and maintaining consistent flow through integrated feeding control.

Shredder Unit
The Shredder Unit produces uniform, manageable plastic pieces for downstream processing, supporting multiple thermoplastics and interchangeable blade configurations for flexible output sizing.

Granulator Unit
The Granulator produces uniform flakes from shredded material, improving handling, extrusion behavior, and testing consistency while enabling filament reuse and closed-loop workflows.

GP20 Container
Designed to keep workflows organized, the Container collects shredded and granulated material and enables safe, efficient transfer between processing stages. An integrated locking mechanism ensures secure containment during operation and handling.

Trolley
The trolley provides a stable, mobile base for shredding and granulation units, enabling flexible positioning and smooth relocation without disrupting workflow.

Motor
GP20 operates on a dual-motor system, with two 750W motors providing a total of 1500W. Separate motors for shredding and granulation enable independent operation, improving stability and processing efficiency across different material inputs.
| TECHNICAL SPECIFICATIONS | ||
|---|---|---|
| SIZE & WEIGHT | ||
| Dimensions | 950 x 750 x 1450 mm (3.7 x 2.95 x 5.7 in) | |
| Dimensions of top hopper opening | 120 x 114 mm (4.7 x 4.5 in) | |
| Weight | 125 kg (275.6 lb) | |
| INTERNAL | ||
| Total shredding blades | 14 blades (Combination of 2, 3 and 7 teethblades are possible) | |
| Default filter screen | 3.5 mm | |
| ENERGY | ||
| Consumption | 1500 W (2x 750Watt) | |
| Voltage | AC 220 - 240V or 110V - 120V | |
| Frequency | 50 – 60 Hz | |
| CAPACITY | ||
| Pre-shredded PET-bottle | 12 kg/h (26.5 lb/h) | |
| OPERATION SOUND | ||
| Range (depends on material) | 63.7 - 90.6 dB | |
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