Product Description

About Factory 

With more than 18 years’ histiory, we are a professinal manufacturer for drop forged products such as forged chain (X348 X458 X658 X678 X698 F100 F160), scraper chain (10160, 14218, 14226, 142N), conveyor trolley (X348, X458, X678, XT160), and drive chain (X348, X458, X678), and so forth standard moulds of chain. 

Besides, we can also produce as per your drawing or sample, special link chain, pusher, pin and plate, according to customers’ unique requirements.

Product Description

1) Material: Alloy steel, 40Cr, 42CrMo and so on.
2) Types: Standard types, X348 X458 X678, and so on. (Or as per your drawing)
3) Process: Moulding→Forging→Polishing & Blasting→Fine machining→Heat treatment→Blasting→Inspecting & testing→Packing

Product Show
 

Technical Data
 

Model Dimension Weight (Kg) Material Hardness Working Load (KN) Limit Load (KN)
P T C S F R D
10160B 101.6 24 36 13 14 6 14 0.32 20CrMnTi Surface HRC56-64°    
Depth 0.6-1.2mm
18 100
10160 101.6 30 36 13 14.5 9 14 0.36 20CrMnTi Surface HRC56-64°     Depth 0.6-1.2mm 21.6 120
14218 142 42 50 19 20.5 11 25 1.15 20CrMnTi Surface HRC56-64°     Depth 0.6-1.2mm 48.6 270
14226 142 62 50 28 30 15 25 1.75 20CrMnTi Surface HRC56-64°     Depth 0.6-1.2mm 61.2 340
2571 200 66 60 30 32 18 30 2.8 20CrMnTi Surface HRC56-64°     Depth 0.6-1.2mm 72 400
26014 260 70 75 31 33 20 34 5.2 20CrMnTi Surface HRC56-64°     Depth 0.6-1.2mm 135 750
142N 142 43 50 19 22 12.5 25 1.2 40Cr Quench HRC36-44° 75.6 420
150D 142 42 50 19 20.5 11 25 1.15 40Cr Quench HRC36-44° 75.6 420
MG20 200 70 50 27 29 17 35 3.78 40Cr Quench HRC36-44° 144 800
MG20B 200 70 50 27 29 17 30 3.82 40Cr Quench HRC36-44° 140.4 780
MG20C 200 70 50 27 29 17 28 3.85 40Cr Quench HRC36-44° 122.4 680
MS32 200 42 50 20 22 12 25 1.4 40Cr Quench HRC36-44° 75.6 420
MS55 200 80 70 35 38 25 28 4.36 40Cr Quench HRC36-44° 138.6 770
3006 200 65 70 30 33 24 32 3.6 40Cr Quench HRC36-44° 160.2 890
MS63 250 70 80 30 33 20 32 4.93 40Cr Quench HRC36-44° 147.6 820
S16 100 30 27 15 16 8 14 0.3 40Cr Quench HRC36-44° 16 88
S20 125 34 33 17 18 8 17 0.37 40Cr Quench HRC36-44° 19.4 108
S25 160 48 39 23 25 13 20 1.28 40Cr Quench HRC36-44° 55.8 310
S30 142 46 49 22 23.5 14 25 1.3 40Cr Quench HRC36-44° 91.8 510
Z16 100 40 35 18 20 12 17 0.4 40Cr Quench HRC36-44° 32.4 180
Z20 125 50 46 24 26 15 20 0.67 40Cr Quench HRC36-44° 59.4 330
Z20D 125 52 60 24 26 16 26 1.15 40Cr Quench HRC36-44° 82.8 460
Z25 160 58 55 28 30 18 25 2.25 40Cr Quench HRC36-44° 82.8 460
Z25D 160 66 64 29 31 22 28 2.6 40Cr Quench HRC36-44° 120.6 670
Z30 142 64 50 29 30.5 18 25 1.8 40Cr Quench HRC36-44° 111.6 620

Products & Testing Equipments
 

Products Application


Packing & Delivery
 

Why Choose Us?

1. We are engaged in chain industry over 15 years with rich market experience. We keep improving production techniques. All the products have longer working life and have passed the market test.

2. We can design the correct chains with high quality material, good abrasion resistance, good corrosion, high strengthen and etc as per your request or the chain application.

3. We are the chain manufacturer; you can directly purchase the product from us with low price and high quality.

4. We have a professional team for international trade, they have abundant experiences and are always ready to solve problems for customers. So you have nothing to worry about.

5. We have the long-term cooperative forwarder who can give us the lowest freight. And it can help you to save the freight. What’s more, for the FCL, we will design the packages as per the container sizes with the largest capacity to save the shipping cost for both of us.

 

Standard or Nonstandard: Standard
Application: Textile Machinery, Garment Machinery, Conveyer Equipment, Packaging Machinery, Electric Cars, Motorcycle, Food Machinery, Mining Equipment, Agricultural Machinery, Coating, Spraying, Mining, Slaughtering, Assembly
Surface Treatment: Polishing
Samples:
US$ 5/Piece
1 Piece(Min.Order)

|

Order Sample

Customization:
Available

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Customized Request

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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.

transmission chain

How does the design of a transmission chain impact its efficiency?

The design of a transmission chain plays a crucial role in determining its efficiency and overall performance. Here’s a detailed explanation:

1. Link Shape and Geometry: The shape and geometry of the chain links directly affect the efficiency of power transmission. Chains with optimized link designs, such as streamlined or curved profiles, reduce friction and minimize energy losses during operation. These design features enhance the chain’s efficiency and contribute to smoother power transfer.

2. Bearing Surfaces: The design and quality of bearing surfaces in a transmission chain significantly impact its efficiency. Well-designed chains incorporate precision-machined bearing surfaces that minimize friction and wear. Smooth and accurately machined surfaces reduce energy losses caused by friction, resulting in higher efficiency and improved overall performance.

3. Roller and Bushing Design: The design of the rollers and bushings in a transmission chain can greatly influence its efficiency. Chains with properly designed rollers and bushings reduce friction and enable smooth rotation. Low-friction contact surfaces between the rollers and sprockets ensure efficient power transmission, reducing energy waste and improving the overall efficiency of the chain.

4. Lubrication System: The design of the lubrication system within the chain also affects its efficiency. Proper lubrication reduces friction and wear, allowing the chain to operate more efficiently. Some transmission chains incorporate self-lubricating features or advanced lubrication mechanisms to ensure optimal lubrication throughout the chain, further improving efficiency.

5. Material Selection: The choice of materials for the chain’s components, such as links, rollers, and bushings, impacts its efficiency. High-quality materials with excellent wear resistance and low friction coefficients contribute to higher efficiency. Additionally, lightweight materials can reduce the overall weight of the chain, resulting in lower inertia and improved efficiency.

6. Precision Manufacturing: The precision and accuracy with which a transmission chain is manufactured can directly affect its efficiency. Chains produced with tight tolerances and high-quality manufacturing processes ensure proper fit, reduced friction, and optimal power transfer, resulting in improved efficiency.

It is important to note that the design considerations and features mentioned above can vary depending on the specific type and application of the transmission chain. Consulting with experts or manufacturers can provide further insights into the design features that optimize efficiency for a particular transmission chain.

transmission chain

How does the choice of lubrication method impact the performance of a transmission chain?

The choice of lubrication method plays a crucial role in the performance and longevity of a transmission chain. Here’s a detailed answer to the question:

1. Reduced Friction and Wear: Proper lubrication ensures a thin film of lubricant between the moving parts of the transmission chain, reducing friction and minimizing wear. This helps to maintain the integrity of the chain’s components, such as pins, rollers, and bushings, by preventing metal-to-metal contact and reducing surface damage.

2. Heat Dissipation: Lubrication helps in dissipating heat generated during the operation of the transmission chain. By reducing friction and providing a cooling effect, the lubricant helps to prevent overheating, which can lead to premature wear, deformation, or failure of the chain.

3. Corrosion Protection: Lubricants often contain additives that offer corrosion protection to the transmission chain. These additives create a protective barrier against moisture, chemicals, and other corrosive elements, preventing rust formation and maintaining the chain’s performance in corrosive environments.

4. Noise Reduction: Adequate lubrication reduces the noise generated by the movement of the transmission chain. The lubricant acts as a cushion between the contacting surfaces, dampening vibrations and minimizing the noise levels produced during operation. This contributes to a quieter and smoother chain operation.

5. Extended Lifespan: Proper lubrication helps to extend the lifespan of the transmission chain. By reducing friction, wear, and the accumulation of debris, lubrication minimizes the stress on the chain’s components, resulting in improved durability and reduced likelihood of premature failure.

6. Operational Efficiency: A well-lubricated transmission chain operates with higher efficiency. With reduced friction, the chain experiences less power loss, enabling more effective power transmission. This leads to improved overall system efficiency, reduced energy consumption, and lower operating costs.

7. Contamination Prevention: Lubrication acts as a barrier, preventing contaminants, such as dust, dirt, and debris, from entering the chain’s components. This helps to maintain the cleanliness of the chain, reducing the risk of abrasive wear and preserving the integrity of its parts.

It’s important to consider the specific operating conditions, such as temperature, speed, load, and environment, when selecting the lubrication method for a transmission chain. Factors such as the viscosity, temperature range, and compatibility of the lubricant with the chain material should be taken into account to ensure optimal lubrication performance.

transmission chain

What materials are commonly used in manufacturing transmission chains?

Transmission chains are manufactured using various materials, each offering different properties and advantages. The choice of material depends on the specific application requirements, including load capacity, wear resistance, and environmental conditions. Here are some commonly used materials in the manufacturing of transmission chains:

  • Carbon Steel: Carbon steel is a popular choice for transmission chains due to its excellent strength, durability, and affordability. It provides good wear resistance and can handle moderate loads.
  • Stainless Steel: Stainless steel chains are highly resistant to corrosion and offer superior durability in challenging environments. They are commonly used in industries where cleanliness and hygiene are critical, such as food processing and pharmaceuticals.
  • Alloy Steel: Alloy steel chains are alloyed with various elements to enhance their mechanical properties. They offer higher strength, increased wear resistance, and improved fatigue resistance compared to carbon steel chains.
  • Plastic: Plastic chains are lightweight, corrosion-resistant, and offer excellent chemical resistance. They are often used in applications where noise reduction, low friction, or non-magnetic properties are required.
  • Non-metallic Composites: Non-metallic composite chains are made from materials such as fiberglass, carbon fiber, or Kevlar. These chains offer high strength-to-weight ratios, exceptional chemical resistance, and low friction characteristics.

It’s important to select the appropriate chain material based on the specific operating conditions and requirements of the application. Factors such as load capacity, speed, environmental conditions, and maintenance considerations should be taken into account when choosing the material for a transmission chain.

China Professional Agricultural Rice Conveyor Roller Chain Transmission Chain with X348 X458 X678  China Professional Agricultural Rice Conveyor Roller Chain Transmission Chain with X348 X458 X678
editor by CX 2023-10-31