Plastic waste cutting machine features an integrally cast steel knife holder and high-strength tungsten carbide cutters for outstanding rigidity and sturdiness. Equipped with a low-speed high-torque motor, balance flywheel and MB automatic transmission system, all its parts are installed for easy operation and maintenance. Boasting excellent durability, reliability and safety, it delivers efficient production performance.
We are maker of cutting machine, include rotary type, guillotine type and accurate size cutting.Our machine widely used to cut fiberglass, carbon fiber, basalt fiber, fabric and yarn waste, waste garment, polyester/viscose tow, bobbin yarn and plastic materials.
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Type | MT1200 | MT 1600 | MT 2400 |
Power | 11+2.2kw | 18+3.0kw | 22+3.0kw |
Capacity | 800-1200kg/h | 1000-3000kg/h | 2000-5000kg/h |
Cutting size | 5-150mm | 5-300mm | 10-300mm |
Blade | 4+2 | 4+2 | 4+2 |
Feeding and output conveyor | 3000*520mm | 3000*720mm | 3000*1100mm |
Cutting thickness | 30-80mm | 30-150mm | 30-200mm |
Size | 7000*1500*1700mm | 7000x1800x1950mm | 7000x2200x1950mm |
A plastic waste cutting machine can handle a wide range of plastics, including HDPE, LDPE, LLDPE, PP, ABS, PA, PET, PVC, PS, EPE, EPP, EPS, PC, and PU. Both rigid plastics (pipes, crates, bottles, drums, pallets) and soft plastics (films, bags, packaging film) can be processed. However, not every machine handles every plastic type equally—choosing the wrong configuration is one of the most common and costly mistakes in recycling plant design.
Plastic waste cutting machines can be equipped with either electric motors or diesel engines:
Electric motors are suitable for standard production environments with stable power supply, offering high efficiency and stability.Diesel engines are more flexible and suitable for locations with unstable power supply.
Modern plastic waste cutting machines feature optimized cutting speeds and sealing designs to reduce noise and dust emission during operation. Some models also incorporate internal water injection systems that moisten materials before pro。cessing, which minimizes dust, reduces blade wear through cooling and lubrication, and provides preliminary cleaning of the material.
Blades are typically made from alloy steel materials such as 60Si2Mn or 5SiCr, which offer high hardness and excellent wear resistance for sustained high-intensity operation. Blade lifespan depends on the material being processed and operating conditions. Regular inspection and timely replacement are essential for maintaining cutting efficiency.
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