Product Description
Simplex stainless 304 Roller Chain (08B-1, 24B-1)
The most commonly used chain is roller chain or as it is also known transmission chain. These are the simplest chain drives, Used mainly for transmitting power. Can be supplied from 3mm pitch up to 4″ pitch in either mild steel or stainless steel.
DIN/ISO Chain No. |
Pitch | Roller Diameter |
Width Between Inner Plates |
Pin Diameter |
Pin Length |
Inner Plate depth |
Plate thick ness |
Ultimate Tensile Strength |
Average Tensile Strength |
Weight Per Meter |
|
Mm | mm | mm | mm | mm | mm | mm | mm | kN/LB | kN | Kg/m | |
04B-1 | 6.000 | 4.00 | 2.80 | 1.85 | 6.80 | 7.80 | 5.00 | 0.60 | 3.0/682 | 3.2 | 0.11 |
05B-1 | 8.000 | 5.00 | 3.00 | 2.31 | 8.20 | 8.90 | 7.10 | 0.80 | 5.0/1136 | 5.9 | 0.20 |
*06B-1 | 9.525 | 6.35 | 5.72 | 3.28 | 13.15 | 14.10 | 8.20 | 1.30 | 9.0/2045 | 10.4 | 0.41 |
08B-1 | 12.700 | 8.51 | 7.75 | 4.45 | 16.70 | 18.20 | 11.80 | 1.60 | 18.0/4091 | 19.40 | 0.69 |
10B-1 | 15.875 | 10.16 | 9.65 | 5.09 | 19.50 | 20.90 | 14.70 | 1.70 | 22.4/5091 | 27.50 | 0.93 |
12B-1 | 19.050 | 12.07 | 11.68 | 5.72 | 22.50 | 24.2 | 16.00 | 1.85 | 29.0/6591 | 32.20 | 1.15 |
16B-1 | 25.400 | 15.88 | 17.02 | 8.28 | 36.10 | 37.4 | 21.00 | 4.15/3.1 | 60.0/13636 | 72.80 | 2.71 |
20B-1 | 31.750 | 19.05 | 19.56 | 10.19 | 41.30 | 45.0 | 26.40 | 4.5/3.5 | 95.0/21591 | 106.7 | 3.70 |
24B-1 | 38.100 | 25.40 | 25.40 | 14.63 | 53.40 | 57.80 | 33.20 | 6.0/4.8 | 160.0/36364 | 178.0 | 7.10 |
28B-1 | 44.450 | 27.94 | 30.99 | 15.90 | 65.10 | 69.50 | 36.70 | 7.5/6.0 | 200.0/45455 | 222.0 | 8.50 |
32B-1 | 50.800 | 29.21 | 30.99 | 17.81 | 66.00 | 71.0 | 42.00 | 7.0/6.0 | 250.0/56818 | 277.5 | 10.25 |
40B-1 | 63.50 | 39.37 | 38.10 | 22.89 | 82.20 | 89.2 | 52.96 | 8.5/8.0 | 355.0/80682 | 394.0 | 16.35 |
48B-1 | 76.20 | 48.26 | 45.72 | 29.24 | 99.10 | 107.0 | 63.80 | 12.0/10.0 | 560.0/127272 | 621.6 | 25.00 |
56B-1 | 88.90 | 53.98 | 53.34 | 34.32 | 114.60 | 123.0 | 77.80 | 13.5/12.0 | 850.0/193180 | 940.0 | 35.78 |
*Bushing chain: d1 in the table indicate the external diameter of bushing |
We own the sophisticated equipment and the advanced technology, such as:
1. CAD Designer
2. Wire Cutting Machine
3. Chain Running In Machine
4. Conveyor Furance
5. Ball Drift
6. Shot Peened Parts
7. Design Of Link Plate Waist
Company Detail:
GOODLUCK TRANSMISSION is 1 of a professional exporter with exporting POWER TRANSMISSION PARTS: Roller chains,conveyor chain,stainless steel chains, agricultural chains, steel detachable chains, special chains, sprockets, s. S. Sprockets, HRC couplings, pulleys, bushes etc. All these products have been supplied regularly to World Wide for over 15 years.
Welcome contact for more detail.
Usage: | Transmission Chain |
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Material: | Stainless steel |
Surface Treatment: | Polishing |
Samples: |
US$ 100/Piece
1 Piece(Min.Order) | Order Sample Pls contact with Sellers
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Customization: |
Available
| Customized Request |
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Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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Payment Method: |
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Initial Payment Full Payment |
Currency: | US$ |
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Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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Can transmission chains be used in heavy-duty or high-load applications?
Transmission chains are commonly used in heavy-duty or high-load applications due to their robust construction and ability to handle substantial power transmission requirements. Here’s a detailed explanation:
1. Strength and Durability: Transmission chains are designed to withstand high loads and heavy-duty applications. They are constructed using high-quality materials such as alloy steel, ensuring exceptional strength, toughness, and resistance to fatigue. These chains are engineered to handle the demanding forces and loads encountered in heavy machinery, industrial equipment, and automotive applications.
2. Load Capacity: Transmission chains are available in various sizes and configurations to accommodate different load capacities. Manufacturers provide load ratings and specifications for their chains, allowing users to select the appropriate chain based on the anticipated loads. The load capacity of a transmission chain depends on factors such as chain size, material, design, and heat treatment. It is essential to choose a chain that can handle the specific load requirements of the application.
3. Power Transmission Efficiency: Transmission chains offer high power transmission efficiency, making them suitable for heavy-duty applications. The precision engineering of the chain links and sprockets ensures minimal energy loss during power transfer, maximizing the efficiency of the system. This efficiency is crucial in applications where large amounts of power need to be transmitted reliably and consistently.
4. Adaptability to High Loads: Transmission chains can adapt to various load conditions, including shock loads and dynamic forces. Their design allows them to accommodate sudden changes in loads without compromising performance or integrity. Additionally, heavy-duty transmission chains often incorporate features such as hardened pins, solid rollers, and specialized coatings to enhance their load-bearing capacity and resistance to wear.
5. Wide Range of Applications: Transmission chains find extensive use in industries such as construction, mining, agriculture, material handling, and power transmission. They are employed in heavy machinery, conveyor systems, lifting equipment, industrial drives, and many other applications that involve significant loads. Their versatility and ability to handle high loads make them a reliable choice for demanding environments.
When selecting a transmission chain for heavy-duty or high-load applications, it is essential to consider the specific requirements, including anticipated loads, operating conditions, and environmental factors. Consulting with chain manufacturers or industry experts can provide valuable guidance in choosing the most suitable chain to ensure safe and efficient power transmission in heavy-duty applications.
What are the benefits of using a corrosion-resistant coating on a transmission chain?
A corrosion-resistant coating offers several advantages when applied to a transmission chain. Here’s a detailed answer to the question:
1. Enhanced Durability: Corrosion can significantly impact the lifespan and performance of a transmission chain. By applying a corrosion-resistant coating, the chain is protected from the damaging effects of moisture, chemicals, and environmental factors, increasing its durability and longevity.
2. Rust Prevention: Rust formation on a transmission chain can lead to friction, wear, and reduced functionality. A corrosion-resistant coating acts as a barrier, preventing the chain from coming into direct contact with moisture or corrosive substances, thereby inhibiting rust formation and maintaining the chain’s smooth operation.
3. Improved Performance: Corrosion can affect the smooth movement of the chain, causing stiffness, binding, or seizing. With a corrosion-resistant coating, the chain experiences reduced friction and resistance, leading to improved performance, efficient power transmission, and reduced energy consumption.
4. Reduced Maintenance: A transmission chain with a corrosion-resistant coating requires less frequent maintenance and cleaning compared to an uncoated chain. The coating acts as a protective layer, minimizing the accumulation of dirt, debris, and contaminants, thereby reducing the need for frequent cleaning and maintenance.
5. Cost Savings: The use of a corrosion-resistant coating on a transmission chain can result in long-term cost savings. By extending the lifespan of the chain and reducing maintenance requirements, the need for chain replacements and associated downtime and expenses are minimized.
6. Versatility: Corrosion-resistant coatings are available in various formulations suitable for different environments and applications. Whether the transmission chain operates in outdoor conditions, high humidity, chemical exposure, or other corrosive environments, there are coatings specifically designed to provide optimal protection.
7. Environmental Considerations: Using a corrosion-resistant coating on a transmission chain contributes to environmental sustainability. By extending the life of the chain, fewer resources are consumed in manufacturing replacements, reducing waste generation and promoting a more eco-friendly approach.
It’s important to note that the selection of the appropriate corrosion-resistant coating depends on the specific operating conditions, such as temperature, chemical exposure, and the type of corrosive agents encountered. Consulting with coating manufacturers or experts can help determine the most suitable coating solution for a transmission chain based on the application requirements.
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.
editor by CX 2023-11-17