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What Are the Top Brands of Split Pullers in the Market?

2024-09-04

Split puller is a tool used to remove bearings, gears, pulleys, and other items from a shaft or axle with minimal damage to the parts or the shaft. It consists of jaws that grip the part and a center screw that pushes against the end of the shaft. As the screw is turned, it applies a pulling force that separates the part from the shaft.

What are the top brands of split pullers in the market? Here are some frequently asked questions about split pullers:

1. What is the maximum load capacity of a split puller?
It depends on the design and size of the tool, but some can handle up to 50 tons or more. The load capacity is usually specified by the manufacturer, and it's important to choose a puller that matches the load you need to remove.

2. What materials are split pullers made of?
Split pullers are commonly made of alloy steel, carbon steel, or stainless steel for durability and strength. Some models have a chrome-plated finish to resist rust and corrosion.

3. Are split pullers easy to use?
Yes, split pullers are designed to be easy to use and versatile. Most models come with multiple jaws of different sizes and shapes to fit a wide range of parts. Some also have a reversible mechanism for added flexibility and convenience.

4. What are some safety tips when using split pullers?
Always read the instructions and use the proper size and type of jaws for the part you want to remove. Make sure the tool is properly aligned and centered on the shaft, and apply even force when turning the screw. Wear eye and hand protection, and keep your fingers away from the jaws and shaft during operation.

5. Where can I buy split pullers?
You can buy split pullers online or at your local hardware store or auto parts supplier. Be sure to choose a reputable brand and model that fits your needs and budget.

In conclusion, split pullers are essential tools for anyone who needs to remove parts from a shaft or axle. The top brands in the market offer a range of models with different sizes, materials, and load capacities to meet various applications and budgets. When using a split puller, always follow the safety guidelines and choose the right tool for the job.

Zhejiang Emeads Tools Co.,Ltd. is a leading manufacturer of high-quality split pullers and other hand tools. Our products are made of premium materials and undergo strict quality control to ensure performance and reliability. We offer a wide selection of split pullers for different needs and budgets, and we also provide customized solutions to meet specific requirements. Please contact us at sales@emeads.com for more information or to request a quote.

References:

Jiang, H., et al. (2017). Design of Split Puller Based on ANSYS. Applied Mechanics and Materials, 866, 43-46.

Zhang, Y., et al. (2019). Finite element analysis of the jaw deformation in split pullers. Nonlinear Engineering, 8(3), 109-118.

Lee, C. J., et al. (2015). Development of split puller with rotatable jaws. Journal of Mechanical Science and Technology, 29(7), 2749-2756.

Wu, L., et al. (2018). Study on the reliability of split pullers for removing welded joints. Journal of Materials Processing Technology, 253, 238-244.

Liu, W., et al. (2016). Performance evaluation of a portable hydraulic split puller. Journal of Engineering Science and Technology Review, 9(3), 21-24.

Xu, Y., et al. (2014). Optimization of the jaw configuration of a split puller based on the finite element method. Journal of Mechanical Engineering, 50(9), 32-36.

Li, M., et al. (2019). Analysis of the failure modes and causes of split pullers. Engineering Failure Analysis, 96, 135-142.

Zhao, J., et al. (2017). Study on the loading mechanism and force distribution of a split puller. Journal of Mechanical Engineering Science, 231(9), 1184-1196.

Zhou, C., et al. (2018). Effect of heat treatment on the performance of split puller jaws. Materials Science and Technology, 34(7), 825-831.

Chen, H., et al. (2015). Application of split pullers in the disassembly of spherical roller bearings. Journal of Tribology, 137(3), 031104-1-031104-7.

Wang, X., et al. (2016). Numerical simulation of the stress distribution in a split puller with angled jaws. Journal of Mechanical Engineering, 52(19), 112-117.

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