China Standard PU Foam Bicycle Wheel with Plastic Rim

Product Description

                        PU Foam Bicycle Wheel with Plastic Rim
 

Model Weight  Width Bearing hole Diameter
16×2.125 1.7kg 50mm 20mm 460mm

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FAQ

1. How long can I get the feedbacks after we sent the inquiry?
A: We’ll reply you within 12 hours in working day.

2.Are you a direct manufacturer or trading company?
A: We’re direct manufacturer.

3.What’s the payment term?
A: For mass production goods, you need to pay 30% deposit before production and 70% balance against copy of documents. The most common way is by T/T and LC at sight 

4. How to guarantee the quality and after-sales service of your goods?
A: 1). Strict detection during production.
2). Strict sampling inspection on products before shipment and intact product packaging are ensured.
3). Follow up and adopt customers’ feedbacks in a timely manner after sales.

5. Is the sample available?
A:We send the samples by TNT, DHL, FEDEX or UPS, it’ll take arround 3 or 4 working days to receive them, customers will charge all the cost related to the samples, such as sample cost and airmail freight.

 

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Customized: Customized
Color: Multi-colored
Type: PU Wheel
Customization:
Available

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Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

plastic wheel

Can you explain the impact of plastic wheels on the overall efficiency of rolling systems?

Plastic wheels play a significant role in enhancing the overall efficiency of rolling systems across various applications. Their unique properties and advantages contribute to improved performance and productivity. Here’s how plastic wheels impact efficiency:

  • 1. Reduced Friction: Plastic wheels, especially those with precision bearings, offer low friction when in contact with surfaces. This reduces the effort required to move objects, making it easier to push, pull, or roll loads. Less friction also means less energy is expended during operation.
  • 2. Smooth Rolling: Plastic wheels provide smooth and consistent rolling motion. This smoothness enhances maneuverability and control, allowing for precise positioning and alignment of equipment or objects. It also reduces the risk of jolts or jerky movements that can damage goods or materials.
  • 3. Weight Reduction: Plastic wheels are often lighter than metal alternatives. This weight reduction reduces the overall weight of equipment or vehicles, making them easier to transport and maneuver. It can also lead to fuel savings in applications like automotive and aerospace.
  • 4. Corrosion Resistance: Plastic wheels are not susceptible to corrosion or rust, which can hinder the movement of metal wheels over time. In corrosive environments, plastic wheels maintain their performance and longevity, reducing maintenance and replacement costs.
  • 5. Moisture Tolerance: Plastic wheels do not absorb moisture or swell when exposed to wet conditions. This moisture tolerance ensures consistent performance even in humid or damp environments, where metal wheels may suffer from rust or degradation.
  • 6. Quiet Operation: Plastic wheels are known for their quiet operation. They generate minimal noise when rolling, which is advantageous in settings where noise reduction is a priority, such as offices, hospitals, and residential areas.
  • 7. Floor Protection: Plastic wheels are less likely to damage or mark flooring surfaces compared to metal or rubber wheels. They are ideal for indoor applications where preserving the appearance of the floor is important.
  • 8. Customization: Plastic wheels can be customized to meet specific requirements, such as load capacity, tread design, and material composition. This customization ensures that they are optimized for the particular needs of the rolling system, further enhancing efficiency.
  • 9. Longevity: High-quality plastic wheels are designed for durability and extended service life. Their longevity reduces downtime and the frequency of replacements, improving overall operational efficiency.
  • 10. Versatility: Plastic wheels are versatile and suitable for a wide range of applications, from office furniture to industrial equipment. Their adaptability allows them to enhance the efficiency of various rolling systems.

In summary, plastic wheels contribute to the overall efficiency of rolling systems by reducing friction, providing smooth rolling, and offering advantages such as weight reduction, corrosion resistance, and customization options. These benefits translate into improved performance, reduced maintenance, and enhanced productivity in numerous industries and applications.

plastic wheel

How do plastic wheels contribute to noise reduction and smooth operation in various applications?

Plastic wheels play a significant role in reducing noise and ensuring smooth operation in a wide range of applications across various industries. Their design and material properties contribute to these benefits in the following ways:

  • 1. Low Friction: Plastic wheels typically have low friction coefficients when in contact with surfaces. This characteristic minimizes the generation of frictional noise during movement. As a result, plastic wheels roll quietly and smoothly.
  • 2. Precision Bearings: Many plastic wheel assemblies feature precision ball bearings or roller bearings. These bearings reduce rotational resistance and provide a smooth, friction-free rotation, further contributing to noise reduction and smooth operation.
  • 3. Vibration Dampening: Plastic materials have natural vibration-dampening properties. When used in wheels, they can absorb and dissipate vibrations caused by uneven surfaces, reducing the transmission of vibration-related noise to the surroundings.
  • 4. Floor Protection: Plastic wheels are gentle on flooring surfaces. They do not scuff, scratch, or mark floors, which is essential in applications where floor protection and aesthetics are important, such as in homes, offices, and healthcare facilities.
  • 5. Absence of Metal-to-Metal Contact: Unlike metal wheels, plastic wheels do not produce noise through metal-to-metal contact with surfaces. This lack of contact noise makes plastic wheels quieter and more suitable for noise-sensitive environments.
  • 6. Lightweight Construction: Plastic wheels are often lighter than metal alternatives. Their reduced weight places less stress on equipment, resulting in less noise generated by impacts or vibrations when wheels encounter obstacles or uneven terrain.
  • 7. Non-Marking Materials: Some plastic wheels are designed with non-marking materials that prevent them from leaving marks or streaks on floors. This feature is valuable in applications where maintaining a clean and unblemished appearance is a priority.
  • 8. Custom Tread Design: Plastic wheels can have customized tread patterns that optimize grip and reduce noise. Treads with unique designs can minimize rolling resistance, improve traction, and contribute to quieter operation.
  • 9. Moisture Resistance: Plastic wheels do not absorb moisture, which can affect the performance of certain materials like rubber. This moisture resistance ensures consistent operation even in damp conditions.
  • 10. Versatility: Plastic wheels are versatile and can be tailored to specific applications. By selecting the right plastic material, bearing type, and tread design, manufacturers can optimize plastic wheels for noise reduction and smooth operation in a variety of settings.

Overall, the noise reduction and smooth operation provided by plastic wheels make them suitable for applications where minimizing noise pollution, ensuring comfort, and maintaining floor integrity are essential considerations.

plastic wheel

How does the design of a plastic wheel contribute to its durability and performance?

The design of a plastic wheel plays a significant role in determining its durability and performance. Several key design factors contribute to these attributes:

  • 1. Material Selection: The choice of plastic material is crucial. High-quality plastics, such as polyurethane, polypropylene, and nylon, are commonly used for wheel construction. These materials offer excellent durability, impact resistance, and resistance to wear and tear.
  • 2. Load Capacity: The design of the wheel must consider the expected load capacity. Reinforcements, such as ribbing or internal structures, can be added to strengthen the wheel and enhance its load-bearing capabilities. Proper load capacity design ensures that the wheel can support the intended weight without deformation or failure.
  • 3. Bearing Type: The design of the wheel includes the type of bearing used. Precision bearings, such as ball bearings or roller bearings, reduce friction and ensure smooth rolling. Properly designed bearings enhance the wheel’s performance by reducing resistance and minimizing wear.
  • 4. Tread Design: The tread design on the wheel affects its grip, stability, and noise level. Different tread patterns are used for specific applications. For example, smooth treads provide reduced rolling resistance, while treaded designs offer improved traction. The choice of tread design depends on the intended use.
  • 5. Hub and Axle Compatibility: The design of the wheel’s hub and axle connection is essential for secure attachment. It should be compatible with the mounting hardware used in the application. A well-designed hub and axle connection ensure stability and prevent wobbling or detachment during use.
  • 6. Resilience: The design should consider the wheel’s ability to absorb shocks and impacts. Resilient plastic materials can withstand sudden impacts without cracking or breaking. This is especially important in applications where the wheel may encounter rough terrain or obstacles.
  • 7. Temperature Resistance: Depending on the application, plastic wheels may need to withstand a wide range of temperatures. The design should factor in the material’s temperature resistance to ensure that the wheel remains functional in extreme conditions.
  • 8. Size and Dimensions: The size and dimensions of the wheel are critical for load distribution and stability. Properly sizing the wheel according to the application’s requirements ensures optimal performance and durability.
  • 9. Corrosion Resistance: In some environments, corrosion resistance is essential. The design may incorporate materials or coatings that protect against corrosion, ensuring a longer service life.
  • 10. Wheel Mounting: The method of mounting the wheel to the equipment or vehicle is part of the design. It should be secure and reliable to prevent wobbling or detachment during use.
  • 11. Weight Distribution: Proper weight distribution across the wheel is important for even wear and reduced stress on the wheel. Design considerations may include the wheel’s shape and load-bearing capacity to ensure even weight distribution.

A well-designed plastic wheel takes into account these factors to maximize its durability and performance. It should be capable of withstanding the demands of its intended application while providing smooth and reliable movement.

China Standard PU Foam Bicycle Wheel with Plastic Rim  China Standard PU Foam Bicycle Wheel with Plastic Rim
editor by CX 2024-04-09