Product Description
Engineering plastic POM pulley made by CNC lathe
POM(Polyformaldehyde) is a engineering plastics of non-side-chain, high density, high crystalline and linear polymer, which is praised “Plastic Steel”, and has comprehensive excellent performances, such as: Wear-resistance, high hardness, anti-impregnant, good rigidity (Tensile modulus of elasticity), chemical stability, isolation resistance and dimensional stability. POM has widely applied in Automobile industries, electronic and electric products, commodity, pipeline & fittings, exact apparatus and so on, which can be instead of the bronze, Zinc, tin and other metals.
Except POM-H is often copolymerized with ethylene oxide together, in order to avoid the melting of POM material in the high temperature. POM-H has the better performances than POM-C in its high crystalline, mechanical strength and rigidity. And POM-C has the better performances than POM-H in its low melting point, temperature stability, fluxion characteristic and machining capability.
Father more, POM-H+PTFE, which is made from the Delrin POM Resin that maxed Teflon fiber symmetrically, has the low co-efficient of frication, good lubrication, wear-resistance, non-creepage resistance.
Automobile industries: POM has a large application in car industries, because the mechanical parts made by POM, which has the advantages of high mechanical strength, high hardness, good wear-resistance, low co-efficient of friction, easy to maintain, reducing cost and so on, can be used in cars instead of coppery half stalk and planet gear. It not only saving copper materials, but also improving service life. At the engine fuel system, components for hose valves and case cover of radiator, cooling fluid’s standby case, water valve, oil box’ cover, pump impeller, shell of gasification machine and accelerator pedal and so on.
Electronic and electric Industries: Because of its lower power consuming, high dielectric strength and insulation resistance and electronic arc resistance, POM has widely applied in electronic and electric Industries, such as: Shell of electronic spanner, shell of electronic scissors, shell of coal drilling machine, handle of switch, parts also for phone, wireless recorder, video tape recorder, television, computer, electrograph, calculagraph, bracket of recorder tape and so on.
Agricultural machine: Part of manual sprayer, joint and transport part of seeder, parts of milk machine, shell of irrigation and drainage, valve, joint and bush of water and so on.
Other field:
Pharmacy & packing Machine: Transporting screw, planet gear, gear bar, chain wheel and cushion bar and so on.
Construction industries: Water tap, window frame, wash pot, water tank, pulley for portiere, shell of water meter and tie-in of water pipe.
Property | Item No. | Unit | POM-C | POM-H | POM-H+PTFE | |
Mechanical Properties | 1 | Density | g/cm3 | 1.41 | 1.43 | 1.50 |
2 | Water absorption(23ºCin air) | % | 0.20 | 0.20 | 0.17 | |
3 | Tensile strength | MPa | 68 | 78 | 55 | |
4 | Tensile strain at break | % | 35 | 35 | 10 | |
5 | Compressive stress(at 2%nominal strain) | MPa | 35 | 40 | 37 | |
6 | Charpy impact strength (unnotched) | KJ/m 2 | ≥150 | ≥200 | ≥30 | |
7 | Charpy impact strength (notched) | KJ/m 2 | 7 | 10 | 3 | |
8 | Tensile modulus of elasticity | MPa | 3100 | 3600 | 3200 | |
9 | Ball indentation hardness | N/mm 2 | 140 | 160 | 140 | |
10 | Rockwell hardness | – | M84 | M88 | M84 |
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Material: | POM |
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Size: | According to Drawing or Sample |
Color: | Black, White |
Transport Package: | Packing in Paper Carton |
Specification: | RoHS |
Trademark: | Guangzhou Engineering Plastics |
Customization: |
Available
| Customized Request |
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Are there any limitations or temperature constraints with plastic pulleys?
Yes, there are certain limitations and temperature constraints associated with plastic pulleys. Here’s a detailed explanation:
1. Load Capacity:
Plastic pulleys have a limited load capacity compared to their metal counterparts. While they are suitable for many light to moderate load applications, they may not be suitable for heavy-duty or high-load scenarios. Exceeding the recommended load capacity of plastic pulleys can lead to deformation, premature wear, or failure of the pulley, compromising the overall performance and reliability of the system.
2. Temperature Sensitivity:
Plastic pulleys can be sensitive to temperature variations. Extreme heat or cold can affect the mechanical properties of the plastic material, leading to dimensional changes, reduced strength, or increased brittleness. High temperatures can cause the pulleys to deform or soften, while low temperatures can make them more prone to cracking or breakage. Therefore, it is important to consider the temperature range in which plastic pulleys will be operating and choose materials that can withstand the specific environmental conditions.
3. Thermal Expansion:
Plastic pulleys can exhibit thermal expansion, meaning they may expand or contract with changes in temperature. This can affect the precision and alignment of the pulley system. In applications where precise positioning or tight tolerances are required, thermal expansion of the plastic pulleys should be taken into account to ensure proper functioning of the system. Compensation techniques, such as using adjustable mounting brackets or incorporating thermal expansion calculations, may be necessary to maintain alignment under varying temperature conditions.
4. Chemical Compatibility:
Some plastic materials used in pulleys may not be compatible with certain chemicals or solvents. Exposure to chemicals that are incompatible with the plastic material can lead to degradation, discoloration, or weakening of the pulleys. It is important to consider the chemical environment in which the plastic pulleys will be used and select materials that are resistant to the specific chemicals present in that environment.
5. UV and Weather Resistance:
Not all plastic materials used in pulleys have excellent resistance to ultraviolet (UV) radiation or outdoor weather conditions. Prolonged exposure to sunlight or harsh weather elements can cause degradation, discoloration, or loss of mechanical properties in certain plastics. If plastic pulleys are intended for outdoor or UV-exposed applications, it is crucial to choose materials that are UV-resistant and weather-resistant to ensure long-term durability and performance.
6. Static Electricity:
Some plastic pulleys can generate static electricity during operation. This can be a concern in certain applications where static discharge can interfere with sensitive electronic components or create safety hazards in potentially explosive environments. In such cases, anti-static or conductive plastic materials may need to be used to mitigate the risks associated with static electricity generation.
In summary, plastic pulleys have limitations and temperature constraints that should be considered during their selection and application. These limitations include load capacity, temperature sensitivity, thermal expansion, chemical compatibility, UV and weather resistance, and static electricity generation. By understanding and addressing these constraints, it is possible to use plastic pulleys effectively and ensure their optimal performance and longevity in various mechanical systems.
Can plastic pulleys be customized for specific machinery and equipment?
Yes, plastic pulleys can be customized to meet the specific requirements of machinery and equipment. Here’s a detailed explanation:
Plastic pulleys offer a high degree of design flexibility, allowing for customization to match the needs of different machinery and equipment. Here are some key points regarding the customization of plastic pulleys:
1. Material Selection:
Plastic pulleys can be manufactured using various types of plastics, such as nylon, polyethylene, acetal (POM), or polyurethane. The choice of material depends on the specific application requirements, including factors like load capacity, wear resistance, chemical resistance, temperature tolerance, and desired friction properties. Different materials can be selected to optimize the performance and durability of the pulley in the given machinery or equipment.
2. Shape and Size:
The shape and size of plastic pulleys can be customized to fit the available space and interface with other components in the machinery or equipment. Manufacturers can design pulleys with specific dimensions, such as diameter, width, and bore size, to ensure proper alignment, belt or chain engagement, and tension. Customized shapes can include flanges, grooves, or other features that facilitate efficient power transmission and enhance the overall functionality of the machinery or equipment.
3. Mounting Options:
Plastic pulleys can be customized with different mounting options to suit the specific requirements of machinery or equipment. Mounting options can include bores, keyways, set screws, or other mechanisms that enable secure attachment to shafts or other rotating components. Customized mounting options ensure proper installation and alignment of the pulleys, contributing to reliable and efficient operation.
4. Groove Configuration:
In belt-driven systems, plastic pulleys can be customized with different groove configurations to accommodate specific belt profiles. Pulleys can be designed with V-grooves, flat grooves, or multi-groove profiles, depending on the type of belt being used. Customized groove configurations ensure optimal belt engagement, tracking, and power transmission, minimizing slippage and maximizing efficiency in the machinery or equipment.
5. Surface Finish:
The surface finish of plastic pulleys can be customized to meet specific requirements. This includes factors such as roughness, texture, or the addition of coatings or treatments. For example, pulley surfaces can be polished or coated to reduce friction, improve wear resistance, or enhance corrosion resistance. Customized surface finishes help optimize the performance and longevity of plastic pulleys in the machinery or equipment.
6. Load Capacity and Reinforcement:
If the machinery or equipment operates under heavy loads or high-stress conditions, plastic pulleys can be customized to enhance their load-carrying capacity. Reinforcing elements, such as fibers or fillers, can be added to the plastic material to increase strength and improve overall durability. Customized reinforcement ensures that the plastic pulleys can withstand the specific loads and forces encountered in the machinery or equipment.
7. Application-Specific Requirements:
Plastic pulleys can be customized to meet application-specific requirements. For example, in food processing equipment, the pulleys may need to comply with specific hygiene standards, such as being made from food-grade materials that are easy to clean. In corrosive environments, the pulleys can be customized to exhibit enhanced chemical resistance. Customization allows plastic pulleys to be tailored to the unique demands of different machinery and equipment.
Overall, plastic pulleys can be customized in terms of material selection, shape and size, mounting options, groove configuration, surface finish, load capacity, and meeting application-specific requirements. This customization ensures that the plastic pulleys seamlessly integrate into the machinery or equipment, providing optimal performance, durability, and reliability in their intended applications.
In which industries and applications are plastic pulleys commonly used?
Plastic pulleys find widespread use in various industries and applications due to their unique characteristics and advantages. Here’s a detailed explanation of the industries and applications where plastic pulleys are commonly used:
1. Automotive Industry:
Plastic pulleys are extensively used in the automotive industry. They can be found in engine systems, timing belt systems, accessory drives, power steering systems, and HVAC (Heating, Ventilation, and Air Conditioning) systems. Plastic pulleys offer lightweight solutions, noise reduction, and resistance to corrosion and chemicals, making them suitable for automotive applications.
2. Consumer Electronics:
Plastic pulleys play a crucial role in various consumer electronic devices. They are used in printers, scanners, photocopiers, DVD players, and other office equipment. Plastic pulleys provide noise reduction, low friction, and design flexibility, which are desirable features in consumer electronics where quiet operation and precise movement are important.
3. Medical Equipment:
Plastic pulleys are commonly employed in medical equipment and devices. They are used in diagnostic instruments, laboratory equipment, surgical tools, and patient handling systems. Plastic pulleys offer lightweight construction, corrosion resistance, and design flexibility, making them suitable for medical applications where cleanliness, precision, and ease of use are critical.
4. Packaging and Material Handling:
Plastic pulleys find extensive use in packaging and material handling applications. They are utilized in conveyor systems, sorting machines, printing and labeling equipment, and packaging machinery. Plastic pulleys provide low friction, noise reduction, and resistance to corrosion and wear, making them well-suited for efficient and reliable material handling and packaging processes.
5. Recreational Equipment:
Plastic pulleys are commonly found in recreational equipment and devices. They are used in fitness machines, bicycles, kayaks, sailboats, and other sports and leisure equipment. Plastic pulleys offer lightweight construction, low friction, and resistance to corrosion, making them suitable for recreational applications where performance, durability, and ease of use are important.
6. HVAC Systems:
Plastic pulleys are utilized in heating, ventilation, and air conditioning (HVAC) systems. They are used in fan assemblies, blower motors, and air handling units. Plastic pulleys provide noise reduction, low friction, and resistance to corrosion and moisture, making them suitable for HVAC applications where quiet operation, energy efficiency, and durability are desired.
7. Industrial Machinery:
Plastic pulleys are commonly employed in various industrial machinery and equipment. They are used in conveyors, packaging machines, textile machinery, printing presses, and automation systems. Plastic pulleys offer low friction, design flexibility, and resistance to corrosion and chemicals, making them suitable for industrial applications where reliable operation, efficiency, and durability are essential.
8. Agricultural Equipment:
Plastic pulleys find applications in agricultural machinery and equipment. They are used in crop harvesting machines, irrigation systems, grain handling equipment, and livestock feeding systems. Plastic pulleys offer lightweight construction, low friction, and resistance to corrosion and chemicals, making them suitable for agricultural applications where efficiency, reliability, and resistance to harsh environments are required.
In summary, plastic pulleys are commonly used in industries and applications such as automotive, consumer electronics, medical equipment, packaging and material handling, recreational equipment, HVAC systems, industrial machinery, and agricultural equipment. Their unique features and advantages make them versatile components in various sectors, providing lightweight, corrosion-resistant, low-friction, and noise-reducing solutions.
editor by CX
2024-04-09