Plastic crushing systems are the backbone of waste recycling and manufacturing processes, transforming diverse plastic materials into reusable pellets, flakes, or granules. A full-set crushing system integrates primary crushers, secondary processing equipment,
and control systems to handle everything from hard ABS trimmings to soft PE films and large plastic pallets. This article provides an in-depth look at the components, working principles, and configuration strategies for complete plastic crushing solutions,
empowering industries to optimize material processing efficiently.
These machines break down raw plastic into manageable sizes, with three main types designed for different material properties:
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Function: Precision crushing for hard, rigid plastics (ABS, PET, PVC, PC).
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Mechanism: High-speed blades (200–800 RPM) shear materials against fixed knives, producing uniform particles (8–30 mm).
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Key Features: Adjustable screen meshes, metal detection systems, and noise reduction enclosures.
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Capacity Range: 50 kg/h–3 tons/h, power 3–75 kW.
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Example: A 600-series blade crusher with YG8 carbide blades processes 500 kg/h of PET bottles into 15 mm flakes for textile recycling.
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Function: High-efficiency processing for soft, flexible materials (PE film, PP woven bags, rubber).
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Mechanism: Rotating claws (1,500–3,000 RPM) tear and impact materials, with deflector plates preventing entanglement.
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Key Features: Teflon-coated components, automatic reverse function, and moisture resistance.
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Capacity Range: 100 kg/h–2 tons/h, power 7.5–110 kW.
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Example: A 1000-series claw crusher handles 1.2 tons/h of wet agricultural film, producing 20 mm particles for pelletization.
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Function: Heavy-duty crushing for large/composite materials (pallets, car bumpers, industrial waste).
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Mechanism: Two counter-rotating shafts with interlocking teeth shear and compress materials, supported by hydraulic overload protection.
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Key Features: Large inlet hoppers (up to 2,000 mm), 耐磨刀轴 (wear-resistant shafts), and smart torque adjustment.
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Capacity Range: 500 kg/h–5 tons/h, power 45–200 kW.
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Example: A 1500-series shredder processes 4 tons/h of plastic pallets into 50 mm fragments for further recycling.
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Screening Systems:
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Vibrating Screens: Separate oversized particles for re-crushing (3,000–$20,000, mesh sizes 8–50 mm).
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Roller Screens: For wet or sticky materials, reducing clogging (price +15% vs. vibrating screens).
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Washing Lines:
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Three-Stage Washers: Remove labels, dirt, and contaminants ($50,000–$300,000), including hot water tanks, friction rollers, and water recycling systems.
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Metal Separators:
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Magnetic Separators: Remove ferrous metals ($2,000–$15,000), critical for protecting downstream equipment.
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Eddy Current Separators: Extract non-ferrous metals (e.g., aluminum) for high-purity recycling ($50,000–$100,000).
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Control Systems:
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PLC Automation: Real-time adjustment of crusher speed and torque ($10,000–$50,000).
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IoT Monitoring: Remote equipment health tracking, reducing downtime by 40% ($5,000–$20,000 additional).
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Feed plastic trimmings into the blade crusher.
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Screen output to recrush oversize pieces.
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Magnetically separate metal before washing.
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Use cleaned particles in injection molding or sell as recycled pellets.
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Separate soft (film) and hard (bottles) materials into dedicated crushers.
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PLC optimizes crusher speed based on material type.
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Wash both outputs in the three-stage line to remove labels and contaminants.
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Proceed to pelletization or further processing.
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Dual-shaft shredder pre-processes large pallets and bumpers.
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AI system sorts crushed materials by type for dedicated blade crushing.
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Reverse-flow washing achieves 99.9% impurity removal.
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Output meets food-grade standards for premium recycling markets.
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Hard Plastics (PET/ABS):
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Prioritize blade crushers with tight blade gaps (0.5–1 mm) and 8–15 mm screens for spinning or injection molding.
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Example: A PET bottle plant uses a 1000-series blade crusher with a 12 mm screen to produce uniform flakes for polyester yarn.
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Soft Materials (PE/PP Film):
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Use claw crushers with Teflon-coated claws (10–12 mm spacing) and high RPM (2,500+) to prevent 缠绕 (entanglement).
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Example: A film recycling plant reduces downtime by 50% using a 800-series claw crusher with automatic reverse.
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Large/Composite Waste (Pallets/Bumpers):
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Deploy dual-shaft shredders with hydraulic protection and 30–50 mm screen outputs for efficient pre-processing.
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Example: An automotive plant uses two 1500-series shredders to handle 8 tons/h of mixed waste, including metal-reinforced bumpers.
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Avoid Bottlenecks: Ensure each component’s capacity is balanced (e.g., a 1-ton/h crusher paired with a 1.2-ton/h screen and 1-ton/h washer).
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Scalability: Design systems with modular components (e.g., add a second blade crusher as production increases).
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Energy-Efficient Motors: IE5 motors save 30% on electricity for large systems, offsetting their 20% higher cost within 2 years.
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Quick-Change Components: Modular blade/claw assemblies (replaceable in <30 minutes) reduce maintenance downtime by 60%.
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Challenge: Recycle 8 tons/month of ABS edge trimmings to cut raw material costs.
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Solution:
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400-series blade crusher ($10,000) + manual screen ($4,000) + magnetic separator ($5,000).
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Outcome:
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92% of trimmings recycled into usable pellets, saving $25,000/year.
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Simple operation requires only 1 operator, with ROI in 10 months.
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Challenge: Process 30 tons/day of wet, sandy agricultural film with high entanglement risk.
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Solution:
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600-series claw crusher ($42,000) + three-stage washer ($90,000) + PLC control ($18,000).
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Outcome:
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50% reduction in downtime due to anti-entanglement design.
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97% impurity removal, enabling sales to premium markets at a 15% price premium.
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Challenge: Handle 200 tons/day of mixed waste including pallets, bottles, and films.
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Solution:
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2x 1500-series dual-shaft shredders ($900,000) + AI sorting ($200,000) + reverse-flow washer ($350,000).
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Outcome:
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40% higher throughput than previous manual systems.
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99.8% metal removal, meeting strict automotive recycling standards and accessing export markets.
While some crushers claim versatility, specialized systems are 20–30% more efficient. For mixed waste, combine crushers:
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Use dual-shaft shredders for large items, then blade/claw crushers for fines.
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Example: A recycling center uses a shredder for pallets and a blade crusher for bottles, achieving 30% higher overall efficiency.
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Domestic Systems (e.g., China): Cost-effective (30–50% cheaper), ideal for standard applications with good local support.
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Imported Systems (e.g., Germany/Japan): Premium pricing for high precision and durability, suitable for food-grade or medical recycling.
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Blades/Claws: 500–1,500 hours (depends on material abrasiveness; YG8 carbide lasts 3x longer than SKD11 steel).
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Motors/Transmission: 5–10 years with regular maintenance (lubrication, bearing replacement).
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AI-Powered Sorting: Automatically classify plastic types before crushing, improving material purity and reducing manual labor.
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Predictive Maintenance: Sensors monitor blade wear and motor vibration, sending alerts for proactive repairs.
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Waterless Washing: Dry electrostatic cleaning systems reduce water usage by 80%, ideal for water-scarce regions.
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Energy Recovery: Regenerative drives capture braking energy, reducing carbon footprint by 15%.
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Containerized Solutions: Fully integrated crushing lines in shipping containers, the 快速部署 (quick-deploy) for remote recycling sites (price +10% vs. traditional systems).
A well-designed plastic crushing system is a strategic investment that balances material type, capacity, and long-term efficiency. Small operations benefit from cost-effective, modular setups, while large facilities require automated, high-capacity systems
with advanced sorting and cleaning. By matching crusher type to material properties, optimizing component compatibility, and leveraging innovative technologies, businesses can create efficient, profitable recycling and manufacturing workflows.
Whether you’re processing rigid plastics, flexible films, or large industrial waste, the right combination of primary crushers, auxiliary equipment, and control systems ensures consistent performance, minimal downtime, and high-quality output. For personalized
system design and expert advice, contact our team to develop a tailored solution that meets your operational goals and sustainability objectives.
