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Powder Metallurgy Power Tool Spare Parts Custom

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Powder Metallurgy Planetary Gear
The main features of planetary gear transmission are small size, large carrying capacity and stable operation. However, the transmission structure of high-power and high-speed planetary gears is complex and requires high manufacturing precision. Some types of planetary gear transmissions are efficient, but the ratios are not large. Other types can have large gear ratios but are less efficient. When they are used as reducers, their efficiency decreases with the increase of the transmission ratio; when they are used as speed increasers, self-locking may occur.
Planetary gear trains are widely used in various machinery.
1. Realize reduction transmission with large transmission ratio
2. Realize compact high-power transmission
3. Synthesizing motion
4. Achieving the decomposition of motion
  • Powder Metallurgy Planetary Gear
  • Powder Metallurgy Planetary Gear
  • Powder Metallurgy Planetary Gear
  • Powder Metallurgy Planetary Gear
  • Powder Metallurgy Planetary Gear
  • Powder Metallurgy Planetary Gear
  • Powder Metallurgy Planetary Gear
  • Powder Metallurgy Planetary Gear
  • Powder Metallurgy Planetary Gear
  • Powder Metallurgy Planetary Gear

Powder Metallurgy Double Gear
Double gear is two coaxially rotating gears (generally the same module) made into one piece, generally processed by gear shaping, and selected for fine hobbing or grinding according to precision requirements, generally used to change the rotational speed or speed of the output shaft , for the speed change mechanism can make the mechanism compact.
The double gear is generally divided into two parts: the ring gear and the wheel body. According to the structure and shape of the product wheel body, it is divided into disc gears. There are two gear rings. Has splines.
Gear transmission is widely used in modern machinery and equipment, and its function is to transmit motion and power according to the specified speed ratio.
Gear processing needs to ensure shape rules, coaxiality, dimensional accuracy and shape and position accuracy, etc. The processing process (for reference): forging, normalizing - rough turning outer circle and end face - drawing spline holes - deburring - fine Car outer circle and end face - inspection - gear hobbing - gear shaping - chamfering - deburring - shaving - tooth high frequency quenching - pushing hole - honing - general inspection.
  • Powder Metallurgy Double Gear
  • Powder Metallurgy Double Gear
  • Powder Metallurgy Double Gear
  • Powder Metallurgy Double Gear
  • Powder Metallurgy Double Gear

Custom Powder Metallurgy Power Tool Spare Parts Manufacturers

WHO WE ARE

We Have More Than Ten Years Experience In This Field

Shaoxing Guoteng Auto Parts Co., Ltd. was established in 2013 and is located in China Energy Conservation and Environmental Protection Industrial Park, Qisheng Road, Yuecheng District, Shaoxing City, Zhejiang Province.The Company is China Powder Metallurgy Power Tool Spare Parts manufacturers and custom Powder Metallurgy Power Tool Spare Parts suppliers. Now It Has Completely Independent Product Development, Design, Production And Testing Capabilities. The Main Production Equipment Includes More Than 10 Powder Metallurgy Automatic Presses (20-500 Tons), Automatic High-Temperature Sintering Furnaces, Stainless Steel Vacuum Sintering Furnaces, And Steam Treatment Furnaces. Three-Coordinate, Profiler, And Other Processing And Testing Equipment, Specializing In The Production Of Various OEM/ODM Powder Metallurgy Power Tool Spare Parts.

  • 50 million+

    Total investment

  • 7000㎡

    Company size

  • 3000t

    Annual output

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Industry knowledge extension of this category
What is Powder Metallurgy Power Tool Spare Parts
Powder metallurgy power tool spare parts refer to the components or elements of power tools that are manufactured using the powder metallurgy process. Powder metallurgy is a manufacturing technique that involves the production of metal parts or components by compacting and sintering metal powders. This process is widely used in various industries, including the power tool industry, to create high-quality spare parts with enhanced properties.
In the context of power tools, powder metallurgy is employed to manufacture a wide range of spare parts, such as gears, bearings, bushings, sprockets, pistons, connecting rods, and other critical components. These spare parts play a vital role in ensuring the proper functioning and durability of power tools.
Advantages of Powder Metallurgy Power Tool Spare Parts
Powder metallurgy power tool spare parts offer numerous advantages over parts manufactured using traditional methods. Here are some key advantages:
1.Enhanced Material Properties: Powder metallurgy allows for precise control over the composition and microstructure of the metal powders, resulting in power tool spare parts with superior material properties. These parts exhibit high strength, hardness, and wear resistance, ensuring long-lasting performance and durability.
2.Complex Geometries: Powder metallurgy enables the production of power tool spare parts with intricate and complex geometries that may be challenging or impossible to achieve using conventional manufacturing techniques. The flexibility in shaping and forming the parts allows for optimized designs that can improve functionality and performance.
3.Customization: The powder metallurgy process offers excellent customization options for power tool spare parts. Manufacturers can tailor the composition, density, and other characteristics of the metal powders to meet specific performance requirements. This customization ensures that the spare parts are optimized for their intended applications, resulting in improved efficiency and reliability.
4.Cost-Effectiveness: Powder metallurgy is a cost-effective manufacturing method for power tool spare parts. The process allows for near-net-shape production, minimizing material waste and reducing the need for extensive machining. Additionally, powder metallurgy enables the consolidation of multiple parts into a single component, simplifying assembly processes and reducing production costs.