China Best Sales Hot Sale Aluminum Frame Industrial Heavy Duty Sliding Door Roller Pulley idler pulley

Product Description

Product Description

Product name  Hot sale aluminum frame industrial heavy duty sliding door roller pulley
Material High carbon steel bearing+nylon
MOQ 200sets
Weight capacity  400KG
Warranty  5years 
Opening Method push or pull
Door thickness 40-60mm
Surface  Shiny nickle 
Price terms EXW, FOB,CIF
Payment terms T/T, Western union, Paypal, Credit card
Production time Depends on the quantity, normally 15-20 days.
Package PE bag+white box+outer carton+packing belt, or as customers’ requirement.
Application  Used in wooden door or steel door 

Packaging & Shipping

Company Profile

FAQ

Q: Is your company a trading company or factory?

A:We are the direct factory, our factory is about 10000 square meter.

Q:How long is your delivery time?

A:Usually 10-20 days,Mostly it depend on the quantity.

Q:Do you provide the free samples?

A:Mostly the samples need to be paid, but we will return the cost to you when the bulk order come.

Q:Can you do the OEM/ODM services?

A:Of course we can,the customized design can be done as per your requirements or drawings.

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After-sales Service: Online Technical Support
Warranty: 5 Years
Certification: CE, ISO
Splittable: Splittable
Surface Treatment: Polished
Material: Aluminum
Samples:
US$ 38/Set
1 Set(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

aluminum pulley

Are aluminum pulleys suitable for use in automotive and mechanical systems?

Yes, aluminum pulleys are suitable for use in automotive and mechanical systems, offering several advantages that make them a popular choice. Here is a detailed explanation of why aluminum pulleys are suitable for use in automotive and mechanical systems:

  • Lightweight: Aluminum is known for its lightweight nature. Compared to other materials like steel, aluminum pulleys are significantly lighter. This weight advantage is particularly beneficial in automotive and mechanical systems where reducing overall weight is desirable. The use of aluminum pulleys helps improve fuel efficiency in vehicles, reduce the load on mechanical components, and enhance overall system performance.
  • Corrosion Resistance: Aluminum pulleys offer inherent corrosion resistance. This is crucial in automotive and mechanical systems that may be exposed to moisture, humidity, and other corrosive elements. The corrosion resistance of aluminum helps prevent the pulleys from deteriorating over time, ensuring their long-term performance and durability in challenging environments.
  • High Strength-to-Weight Ratio: Despite being lightweight, aluminum pulleys exhibit a high strength-to-weight ratio. This means they can withstand substantial loads and forces while maintaining their structural integrity. The high strength-to-weight ratio of aluminum pulleys makes them capable of handling the demands of automotive and mechanical systems, providing reliable power transmission and smooth operation.
  • Heat Dissipation: Aluminum is an excellent conductor of heat. In automotive and mechanical systems, where heat generation is common, aluminum pulleys can help dissipate heat effectively. The efficient heat dissipation properties of aluminum pulleys contribute to the cooling and temperature management of the system, preventing overheating and potential damage to other components.
  • Machinability: Aluminum is highly machinable, allowing for precise manufacturing and customization of pulleys to meet specific system requirements. The machinability of aluminum simplifies the production process, enabling the creation of intricate designs and accurate dimensions for optimal performance. This makes aluminum pulleys versatile and adaptable to various automotive and mechanical applications.
  • Reduced Noise and Vibration: Aluminum pulleys contribute to reduced noise and vibration levels in automotive and mechanical systems. The lightweight construction and smooth operation of aluminum pulleys minimize vibrations and dampen noise generated during power transmission. This results in quieter operation, improved comfort, and enhanced user experience.

In summary, aluminum pulleys are suitable for use in automotive and mechanical systems due to their lightweight nature, corrosion resistance, high strength-to-weight ratio, heat dissipation properties, machinability, and ability to reduce noise and vibration. These characteristics make aluminum pulleys an excellent choice for applications where weight reduction, durability, and efficient power transmission are essential.

aluminum pulley

Are there any limitations or temperature constraints with aluminum pulleys?

While aluminum pulleys offer numerous benefits, they do have some limitations and temperature constraints that should be taken into consideration. Here is a detailed explanation of these limitations and temperature constraints:

  • Temperature Limitations: Aluminum pulleys have a relatively low melting point compared to other metals. The melting point of aluminum is around 660 degrees Celsius (1220 degrees Fahrenheit). Therefore, they are not suitable for applications that involve extremely high temperatures, such as in certain industrial or high-temperature manufacturing processes. Exposing aluminum pulleys to temperatures above their melting point can cause deformation, structural failure, or even complete melting of the pulley.
  • Thermal Expansion: Aluminum has a relatively high coefficient of thermal expansion. This means that aluminum pulleys will expand and contract more significantly with temperature changes compared to pulleys made of materials with lower coefficients of expansion. In applications where precise dimensional stability is crucial, such as in high-precision machinery or systems with tight tolerances, thermal expansion of aluminum pulleys should be carefully considered and accounted for in the design and operation.
  • Strength at Elevated Temperatures: The mechanical strength of aluminum decreases as the temperature rises. At elevated temperatures, aluminum pulleys may experience reduced load-bearing capacity and lower resistance to deformation or failure. Therefore, in applications where high mechanical strength is required at elevated temperatures, alternative materials with better high-temperature performance, such as steel or heat-resistant alloys, may be more suitable.
  • Corrosion: While aluminum exhibits good corrosion resistance in many environments, it is not immune to corrosion. Aluminum pulleys can be susceptible to corrosion in certain conditions, particularly in the presence of saltwater, acidic or alkaline solutions, and harsh chemicals. Corrosion can weaken the pulley and compromise its performance. Proper protective measures, such as coatings or anodizing, can be applied to mitigate the risk of corrosion and enhance the pulley’s durability.
  • Compatibility: Aluminum pulleys may not be compatible with certain belts or materials in specific applications. Some belts or materials may cause excessive wear, friction, or slippage when in contact with aluminum surfaces. It is important to consider the compatibility between the aluminum pulleys and the mating components to ensure optimal performance and avoid premature wear or failure.

While aluminum pulleys offer many advantages, it is essential to consider their limitations and temperature constraints. These include temperature limitations, thermal expansion, reduced strength at elevated temperatures, susceptibility to corrosion, and compatibility issues with certain belts or materials. By understanding these limitations, appropriate design considerations and material choices can be made to ensure the effective and reliable use of aluminum pulleys in specific applications.

aluminum pulley

How does the weight of aluminum pulleys impact their use in lightweight systems?

The weight of aluminum pulleys plays a significant role in their use in lightweight systems. The lightweight nature of aluminum pulleys offers several advantages and impacts their application in lightweight systems. Here is a detailed explanation of how the weight of aluminum pulleys impacts their use in lightweight systems:

  • Reduced System Weight: Aluminum pulleys contribute to reducing the overall weight of lightweight systems. As aluminum is significantly lighter than materials such as steel or iron, using aluminum pulleys instead of heavier alternatives helps to minimize the weight of the system. This reduction in weight is particularly beneficial in lightweight systems where weight reduction is a priority, such as portable or handheld devices, aerial equipment, or applications where the weight of the system directly affects performance or ease of use.
  • Improved Portability: The lightweight nature of aluminum pulleys enhances the portability of lightweight systems. Systems that incorporate aluminum pulleys can be easily transported, carried, or repositioned due to the reduced weight. This is advantageous in applications where mobility and portability are essential, such as portable lifting equipment, recreational gear, or equipment used in remote or inaccessible locations. The use of aluminum pulleys allows for easier handling and maneuverability of lightweight systems, facilitating their transportation and deployment.
  • Energy Efficiency: The weight reduction achieved by using aluminum pulleys in lightweight systems contributes to improved energy efficiency. Lighter systems require less energy to operate and move, resulting in energy savings. For example, in mechanical systems or conveyors, the reduced weight of aluminum pulleys reduces the amount of energy required for rotation or movement. This energy efficiency is beneficial in applications where power sources are limited, or where reducing energy consumption is a priority for sustainability and cost-effectiveness.
  • Reduced Strain on Components: The lighter weight of aluminum pulleys reduces the strain on other components and materials within the lightweight system. When compared to heavier alternatives, aluminum pulleys exert less force and stress on connecting structures, cables, ropes, or supporting frameworks. This reduced strain helps to extend the lifespan of the system and its components, minimizing the risk of premature wear, fatigue, or failure. It also allows for the use of lighter and more cost-effective supporting materials, further enhancing the efficiency and cost-effectiveness of lightweight systems.
  • Ease of Installation and Maintenance: Aluminum pulleys’ lightweight construction simplifies the installation and maintenance processes in lightweight systems. The reduced weight makes it easier for workers to handle and position the pulleys during installation or when performing maintenance tasks. This ease of handling improves the efficiency and safety of installation procedures, reduces the risk of strain or injury to workers, and minimizes the time and effort required for maintenance or repairs. The lightweight nature of aluminum pulleys enhances the overall usability and accessibility of lightweight systems during their lifecycle.

In summary, the weight of aluminum pulleys significantly impacts their use in lightweight systems. The lightweight construction of aluminum pulleys reduces the overall weight of the system, improves portability, enhances energy efficiency, reduces strain on components, and facilitates installation and maintenance processes. These factors make aluminum pulleys a preferred choice in lightweight systems where weight reduction, mobility, energy efficiency, and ease of handling are important considerations.

China Best Sales Hot Sale Aluminum Frame Industrial Heavy Duty Sliding Door Roller Pulley   idler pulley	China Best Sales Hot Sale Aluminum Frame Industrial Heavy Duty Sliding Door Roller Pulley   idler pulley
editor by CX

2024-04-03