Product Description

Product Description

    Product Name:     Reflective Bicycles Rim Stickers
     Size: 

   Any Size Can Be Customized

   Material:    PVC
   Printing:     Silkscreen printing
   Packing: 

   As usual :500pcs in a carton of 34(W)*30(H)*26(D) CM with

   gross weight of 11KGS                                         

   M.O.Q:    500 pcs 
   Factory Location:   ZHangZhoug
   Product Origin:   China
   Payment Terms:   T/T  /  PayPal  /  L/C  /  Western Union
   Sampling Lead Time:    3~5 days
   Production Lead Time:   10-20 days

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After-sales Service: One Year
Warranty: One Year
Type: Tubeless, Standard Bicycle
Samples:
US$ 5/Piece
1 Piece(Min.Order)

|

Order Sample

Customization:
Available

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Shipping Cost:

Estimated freight per unit.







about shipping cost and estimated delivery time.
Payment Method:







 

Initial Payment



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

pvc wheels

How do PVC wheels impact the maneuverability of material handling equipment?

PVC wheels have a significant impact on the maneuverability of material handling equipment. Here’s a detailed explanation:

PVC wheels are known for their smooth rolling properties, which contribute to enhanced maneuverability. The design and characteristics of PVC wheels play a crucial role in how easily and efficiently material handling equipment can be moved and steered. Here are some key aspects of PVC wheels that impact maneuverability:

  • Low Rolling Resistance:
  • PVC wheels typically have low rolling resistance, meaning they require less force to start and maintain motion. This property reduces the effort needed to push or pull material handling equipment, allowing for smoother and more efficient movement.

  • Smooth Rolling Surface:
  • PVC wheels have a smooth rolling surface, which helps them glide over different types of floors or surfaces. The smoothness of the rolling surface minimizes friction and reduces the likelihood of jolts or bumps, enabling smoother and more controlled maneuvering of the equipment.

  • Shock Absorption:
  • PVC wheels often possess a degree of shock absorption, allowing them to absorb impacts and vibrations during movement. This feature helps to minimize the transfer of shocks and vibrations to the equipment, resulting in smoother and more stable operation.

  • Quiet Operation:
  • Compared to some other wheel materials, PVC wheels tend to produce less noise during operation. The quietness of PVC wheels can be advantageous in environments where noise reduction is desired, such as hospitals, offices, or other noise-sensitive areas.

  • Swiveling Capability:
  • PVC wheels can be designed with swivel capabilities, allowing them to rotate 360 degrees around a vertical axis. Swivel casters equipped with PVC wheels provide excellent maneuverability as they enable easy changes in direction, tight turns, and precise steering. This is particularly beneficial for navigating through narrow aisles or confined spaces.

  • Load Capacity:
  • The load capacity of PVC wheels is an important factor in maneuverability. PVC wheels are available in various load capacities, and selecting the appropriate capacity for the equipment ensures that the wheels can support the intended load without compromising maneuverability. Overloading PVC wheels can hinder maneuverability and potentially damage the wheels or the equipment.

Overall, PVC wheels contribute to improved maneuverability by reducing rolling resistance, providing a smooth rolling surface, absorbing shocks, operating quietly, offering swiveling capabilities, and accommodating different load capacities. These characteristics enhance the ease of movement, turning, and steering of material handling equipment, making it more agile and responsive.

It’s important to consider the specific requirements of the material handling application and the operating environment when selecting PVC wheels to ensure optimal maneuverability and performance.

pvc wheels

Are PVC wheels resistant to chemicals and solvents?

PVC wheels have varying levels of resistance to chemicals and solvents depending on the specific formulation of the PVC material and the type of chemicals involved. Here’s a detailed explanation of PVC wheel resistance to chemicals and solvents:

  • Chemical Resistance:
  • PVC wheels generally exhibit good resistance to a wide range of chemicals, including acids, alkalis, salts, and many common industrial chemicals. They can withstand exposure to mild acids and alkalis without significant degradation or damage. PVC’s chemical resistance is particularly notable for non-aromatic hydrocarbons, such as aliphatic hydrocarbons (e.g., petroleum-based products).

  • Solvent Resistance:
  • While PVC wheels offer good resistance to some chemicals, their resistance to solvents can be more limited. PVC is susceptible to damage or swelling when exposed to certain organic solvents, such as ketones, esters, aromatic hydrocarbons, and chlorinated solvents. Solvents like acetone, benzene, toluene, and trichloroethylene can cause PVC to soften, deform, or dissolve.

  • Effect of Concentration and Exposure Duration:
  • The resistance of PVC wheels to chemicals and solvents can be influenced by factors such as the concentration of the chemical and the duration of exposure. Higher concentrations and longer exposure times may lead to increased degradation or damage to the PVC material. It is important to consider the specific chemical or solvent being used and its compatibility with PVC when evaluating the suitability of PVC wheels for a particular application.

  • Protective Measures:
  • In cases where PVC wheels may come into contact with chemicals or solvents, it is advisable to take protective measures to minimize potential damage. This can include using protective coatings, liners, or barriers to shield the PVC material from direct exposure. Additionally, promptly cleaning and rinsing the wheels after exposure to chemicals or solvents can help mitigate potential harm.

It is crucial to consult the manufacturer’s specifications and guidelines to determine the specific chemical resistance properties of PVC wheels, as the composition and additives in PVC materials can vary. Manufacturers may provide information on the compatibility of their PVC wheels with different chemicals and solvents, helping users make informed decisions regarding their suitability for specific applications.

If the application involves frequent or prolonged exposure to chemicals or solvents, alternative wheel materials with higher chemical resistance, such as polyurethane or stainless steel, may be more suitable.

pvc wheels

How do temperature extremes affect PVC wheel performance?

Temperature extremes can significantly affect the performance of PVC wheels. Here’s a detailed explanation of how PVC wheel performance is impacted by temperature extremes:

  • Cold Temperatures:
  • In cold temperatures, PVC wheels can become more rigid and less flexible. This reduced flexibility can affect the wheel’s ability to absorb shocks and vibrations, resulting in a rougher ride. PVC wheels may also experience decreased traction on slippery surfaces due to reduced grip. In extreme cold conditions, PVC wheels can even become brittle and prone to cracking or breaking upon impact.

  • Hot Temperatures:
  • In hot temperatures, PVC wheels can soften and lose their shape retention properties. The increased heat can cause the PVC material to deform, leading to changes in the wheel’s shape and dimensions. This deformation can result in decreased stability, compromised load-bearing capacity, and diminished rolling performance. Additionally, prolonged exposure to high temperatures can accelerate the degradation of PVC, causing it to become brittle over time.

  • Effects on Load Capacity:
  • Temperature extremes can also affect the load capacity of PVC wheels. In cold temperatures, the reduced flexibility of the PVC material can impact the wheel’s load-bearing capability, potentially leading to decreased load capacity. Similarly, in hot temperatures, the softening and deformation of PVC can compromise the wheel’s structural integrity, resulting in reduced load capacity and increased risk of failure.

  • Maintenance and Longevity:
  • Temperature extremes can accelerate the wear and degradation of PVC wheels. Cold temperatures can make the PVC material more susceptible to cracking and surface damage, while hot temperatures can cause the material to degrade faster. Proper maintenance, including regular cleaning, lubrication, and inspection, becomes even more critical to ensure the longevity and optimal performance of PVC wheels under temperature extremes.

It is important to consider the anticipated temperature conditions of the application when selecting PVC wheels. For extreme temperature environments, alternative wheel materials like rubber or high-temperature resistant materials may be more suitable. Additionally, utilizing wheel covers or implementing insulation measures can help mitigate the impact of temperature extremes on PVC wheels.

Consulting the manufacturer’s specifications and guidelines is essential to understand the temperature range within which PVC wheels can safely operate and to ensure they are suitable for the intended application and temperature conditions.

China factory Reflective Bicycle Spoke/ Bike Wheel Sticker, PVC Reflective Bicycle Wheel Stripes for Warning Safety  China factory Reflective Bicycle Spoke/ Bike Wheel Sticker, PVC Reflective Bicycle Wheel Stripes for Warning Safety
editor by Dream 2024-05-14