China manufacturer High Quality Brass Plated Welded Chain with SGS Certification (DIN763, DIN766, DIN764)

Product Description

Brass Plated Welded Chain With CE Certification(DIN763, DIN766, DIN764)

ASTM80 Standard link chain 1/8″-5/8″
Australian standard 4mm-16mm
Korean Standard 3mm-12mm
DIN763 Standard Link chain 2mm-16mm
DIN 766 Standard link chain 2mm-16mm
Japanese Standard 2mm-12mm
Confirm the material, quality, all dimensions accord with the standard.

Certificate: Material test report, Working load test report, Co certificate, Form A certificate and so on.
1) Material: Stainless steel (SS316, SS304), 20Mn2, Q235 (carbon steel), alloy steel.

2) Surface treatment: Electro galvanized, hot dipping galvanized, zinc plated (white, blue, yellow, color zinc plating), blackened, self-color, black oxide.

3)Standard: Ordinary mild steel link chain, short link chain, medium link chain, long link chain, American Standard link chain (ASTM1980, NACM1990, NACM1996/NACM2003), Germany Standard link chain(DIN5685A/C short/long link chain, DIN763/DIN764, DIN766) Australian Standard, Japan Standard, Korea Standard, Norwegian Standard link chain; .

4)Grade: G30, G43, G70, G80,G100

5)Usage: Lashing, transportation, transmission, construction, fence, shop decoration, swing, fishing, lifting chain, hardware chain, anchor chain, snow chain, animal chain, elevator balance chain etc.
Decoration; Protection; Lifting; Traction etc.
Fishing &boat chain; Mine chain; Cement
Lifting round chain.
Haito always lead the new development of technologies, new products
And value-added services. Over the years, link chains have been created, applied,
And enable real growth forcustomers into newmarketplaces.
Link chains are widely used in various industries.
 

DIN764 LINK CHAIN
SIZE INSIDE LENGTH INSIDE WIDTH OUTSIDE WIDTH OUTSIDE WIDTH WEIGHT PER100M BREAKING LOAD TEST LOAD
MM MM MM iMM MM MM MM ± MM KG KG KN
4 0.2 16 0.3 5 14 176 1.6 31.3 7 400
0.2 0.9
5 0.2 18 0.4 7 18.2 198 1.8 51.4 11.8 680
0.2 1
6 0-20 21 0.5 8 21.5 231 2 74 16.5 850
0.2 1.1
8 0.2 28 0.5 11 29 308 2.2 131.5 32 1680
0.3 1.2
10 0.3 32 0.6 12 36 385 2.7 200 50 2630
0.3 1.5
12 0.3 42 0.6 16 41 462 3.2 298 70 3680
0.3 1.8
13 0.4 45 0.7 18 47 495 3.5 350 80 4200
0.4 2
14 0.45 49 0.75 20 48 539 3.8 406 92 4830
0.45 2
16 0.5 56 0.9 22 58 616 4.3 520 125 6700
0.5 2.5
18 0.8 63 1 24 65 693 4.7 650 160 8400
0.5 2.8
20 1 70 1.1 27 72 770 5.4 820 200 10000
0.6 3.2
23 1.2 80 1.3 31 83 880 6.2 1100 250 13000
0.7 3.5

 
 

Usage: Transmission Chain, Conveyor Chain
Material: Alloy
Surface Treatment: Brass Plated
Feature: Heat Resistant
Chain Size: 2mm-16mm
Structure: Welded Chain
Customization:
Available

|

Customized Request

welded chain

What are the noise and vibration characteristics of welded chains during operation?

During operation, welded chains can exhibit certain noise and vibration characteristics, which can vary based on factors such as the design, material, lubrication, and the specific application. Here’s a detailed look at these characteristics:

  • Noise Generation: Welded chains can produce noise during operation, especially when there is insufficient or improper lubrication between the chain links and other components. Regular and appropriate lubrication can help reduce friction and minimize noise levels.
  • Vibration: Welded chains may experience vibration during operation, particularly if there are irregularities in the chain’s construction or if the chain is subjected to varying loads. Proper tensioning and alignment of the chain can help reduce vibration.
  • Impact Noise: In some applications, such as when the chain engages with sprockets or other components, impact noise can occur. This can be mitigated by using well-maintained sprockets with properly matched chain characteristics.
  • Material and Design: The material and design of the welded chain can influence its noise and vibration characteristics. Chains made from materials with good damping properties may reduce noise and vibration levels.
  • Environmental Factors: The operating environment can also affect the noise and vibration levels of welded chains. For example, dusty or dirty environments can impact the chain’s performance and increase noise.
  • Preventive Maintenance: Regular inspection and maintenance play a crucial role in minimizing noise and vibration. Proper lubrication, tensioning, and replacement of worn components can help keep the chain operating smoothly and quietly.
  • Application-Specific Considerations: Different applications may have specific noise and vibration requirements. For example, in some industries like food processing or precision machinery, reducing noise and vibration might be a critical consideration.

Overall, noise and vibration characteristics in welded chains can be managed and minimized through proper maintenance, appropriate material selection, and considering the specific needs of the application. Addressing these factors ensures the welded chain operates efficiently and quietly in various industrial settings.

welded chain

How do welded chains handle wear and tear in continuous operation?

Welded chains are designed to withstand wear and tear in continuous operation, making them reliable for various industrial applications. Here’s how they handle continuous operation:

  • Material Selection: Welded chains are made from high-quality materials, such as carbon steel, alloy steel, or stainless steel, depending on the specific application. The chosen material’s properties contribute to the chain’s ability to resist wear and fatigue.
  • Surface Treatment: Some welded chains receive surface treatments like heat treatment or coating to improve their hardness, strength, and wear resistance, making them better equipped to handle continuous operation.
  • Lubrication: Proper lubrication is essential to reduce friction and wear between the chain’s components. Regular and appropriate lubrication ensures smooth movement, lessens wear, and prolongs the chain’s life.
  • Chain Design: Welded chains are engineered with precision to minimize stress concentrations and distribute loads evenly. A well-designed chain can handle higher loads and endure continuous operation more effectively.
  • Inspections and Maintenance: Regular inspections and maintenance routines are vital to detect any signs of wear and tear early on. Addressing issues promptly can prevent further damage and extend the life of the chain.
  • Load Capacity: Ensuring that the welded chain operates within its rated load capacity is crucial for avoiding premature wear and breakdowns during continuous operation.
  • Operating Conditions: Understanding the operating conditions, such as temperature, speed, and environmental factors, allows for selecting the appropriate chain and implementing measures to reduce wear and tear.
  • Replacement: Despite proper maintenance, welded chains will eventually wear out over time. Regularly replacing worn-out chains is essential to prevent unexpected failures and maintain the efficiency of the material handling system.

In conclusion, welded chains are designed and maintained to handle wear and tear effectively during continuous operation. Proper material selection, lubrication, maintenance, and operating within the chain’s capacity contribute to its longevity and reliable performance in industrial settings.

welded chain

How do welded chains handle shock loads and dynamic forces in material handling?

Welded chains are designed to handle shock loads and dynamic forces encountered in material handling applications. Their ability to manage such forces effectively relies on several key factors:

  • Material Strength: Welded chains are often made from strong materials like carbon steel or alloy steel, which offer high tensile strength and durability to withstand sudden impact and dynamic loads.
  • Design and Engineering: The design of welded chains takes into account the specific requirements of material handling, including factors like load distribution and fatigue resistance, to ensure optimal performance under varying forces.
  • Quality Manufacturing: Well-manufactured welded chains undergo rigorous quality control processes to ensure their structural integrity and ability to handle shocks and dynamic forces without failure.
  • Welding Techniques: The welding of chain links is critical to their strength. High-quality welding techniques, like precision electric welding, are employed to create strong and reliable joints that can handle dynamic loads.
  • Proper Lubrication: Regular lubrication of welded chains reduces friction between moving parts, minimizes wear, and helps absorb shock loads by providing a cushioning effect.
  • Regular Inspection and Maintenance: Periodic inspection of the welded chains allows for the detection of wear, fatigue, or damage. Timely maintenance, such as replacing worn components, ensures continued performance and extends the chain’s service life.
  • Load Capacity Ratings: Manufacturers provide load capacity ratings for welded chains based on industry standards. These ratings help users understand the maximum loads the chains can handle under different dynamic conditions.

By considering material strength, design, quality manufacturing, proper maintenance, and load capacity ratings, welded chains can effectively handle shock loads and dynamic forces in material handling applications, providing a reliable and safe solution for various industries.

China manufacturer High Quality Brass Plated Welded Chain with SGS Certification (DIN763, DIN766, DIN764)  China manufacturer High Quality Brass Plated Welded Chain with SGS Certification (DIN763, DIN766, DIN764)
editor by CX 2023-07-31