China supplier 26*92mm Alloy Steel Heavy Duty Welded Mining Chain

Product Description

Specification:

 1. Material: alloy steel, 20Mn2
 
2. Standard: DIN22252
 
3. Size: 10-48mm
 
4. Surface: Black, Self color
 
5. Break load: 110-2900KN
 
6. Package: Iron drum, wooden box, woven bag
 
7. Delivery time: 10-25 days

 
Features:

1) Nearly 20 years experience in production
 
2) Owned factory, with superior quality and competitive price

3) ODM,OEM service
 
4)Research and development team with professional technology.
 
5)Excellent marketing team with super business level.

Why choose us?
       1.  Reliable quality make you never worry about quality issues.
 
        2.  Most competitive price help you get more market shares.
 
        3.  Good after-sale service, all questions will be replied within 12 hours.
 
        4.  One stop source, all related products requirement can source from us.
 
        5.  All available shipping ways could be applied, by express, air or sea. 

More Standard

  1. Ordinary Mild Steel Link Chain;
  2. ASTM80 Standard Link Chain;
  3. NACM90 standard link chian ;
  4. NACM96 standard link chain ;
  5. NCM2003 standard link chain ;
  6. USA Standard Chain with Hooks;
  7. Australian Standard Link Chain;
  8. Germany Standard Link Chain;
  9. Japanese standard link chain ;
  10. Norwegian Standard Link Chain;
  11. Korean Standard Link Chain;
  12. Weldless Chain;
  13. Staniless Steel Link Chain;
  14. Chain Accessaries;
  15. Animal Chain.
  16. Lifting chian ;
  17. Lashing chain;
  18. Cain for ship ;
  19. Fishing chain ;
  20. Chain with clevis/eye grab hoks on both end

High Tensile Chain

  • G100 Lifting Chain
  • G80 Lifting Chain;
  • Lifting Chain-General;
  • Lashing Chain;
  • Debarking Chain;
  • Mining Chain;
  • Three-link chain for Coal Transfer;
  • Transport Chain-general;
  • Chains for Ash Handler;
  • Fishing Chain;
  • Tuna Chain;
  • Chain for Ship;
  • Stud Chains for Ship;
  • Studless Chains for Ship.

size d×p/mm

IW a min/mm

OW b max/mm

unit weight

kg/m

working

load/kn

test load

/kn

breaking

load/kn

14×50

17

48

4.0

154

185

246

18×64

21

60

6.6

254

305

407

19×64.5

22

63

7.6

283

340

454

22×86

26

74

9.5

380

456

608

26×92

30

86

13.7

531

637

850

30×108

34

98

18.0

707

848

1130

34×126

38

109

22.7

907

1090

1450

38×137

42

121

29.0

1130

1360

1820

42×146

48

137

30.0

1380

1660

2220

  

Usage: Conveyor Chain
Material: Alloy Steel
Surface Treatment: Painting
Feature: Heat Resistant
Chain Size: 26*92mm
Structure: Mining Chain
Customization:
Available

|

Customized Request

welded chain

How do welded chains handle misalignment between sprockets in conveyor systems?

Welded chains are designed to handle some degree of misalignment between sprockets in conveyor systems. Misalignment can occur due to various reasons, such as improper installation, wear and tear, or thermal expansion. Here’s how welded chains cope with misalignment:

  • Flexibility: Welded chains have a certain degree of flexibility, allowing them to tolerate minor misalignments between sprockets. This flexibility helps prevent excessive stress on the chain and other components.
  • Articulated Links: The links in welded chains are typically articulated, which means they can move independently. This feature enables the chain to adapt to slight misalignments during operation.
  • Reduced Noise and Vibration: The ability of welded chains to accommodate misalignment can reduce noise and vibration levels in the conveyor system, leading to smoother operation.
  • Self-Adjustment: In some cases, welded chains can self-adjust to minor misalignments over time. However, it’s essential to address significant misalignments promptly to prevent accelerated wear and potential damage to the chain and sprockets.
  • Regular Inspection: Periodic inspection of the conveyor system, including the chain and sprockets, is crucial to detect any misalignment issues early. Timely adjustments and maintenance can help prolong the chain’s service life and prevent downtime.
  • Proper Lubrication: Adequate lubrication between the chain and sprockets can enhance flexibility and reduce friction, allowing the chain to better handle misalignment.
  • Correct Tensioning: Proper tensioning of the welded chain is essential to prevent excessive slack, which can worsen misalignment issues and lead to premature wear.

While welded chains can accommodate some misalignment, it’s essential to ensure that misalignment is within acceptable limits. Significant misalignment can lead to accelerated wear, noise, and potential damage to the conveyor system. Regular maintenance and addressing misalignment issues promptly can help ensure the welded chain’s optimal performance and longevity in the conveyor system.

welded chain

What are the environmental considerations when using welded chains in material handling?

When using welded chains in material handling applications, several environmental considerations should be taken into account to ensure sustainable and responsible operations. Here are the key environmental considerations:

  • Material Selection: Choosing the right material for welded chains is crucial. Opt for materials that are durable, long-lasting, and, if possible, recyclable to minimize waste generation.
  • Corrosion Resistance: In outdoor or corrosive environments, using corrosion-resistant welded chains, such as stainless steel chains, can prolong their lifespan and reduce the need for replacements.
  • Lubrication: Proper and eco-friendly lubrication helps reduce friction and wear on the chains, improving their efficiency and reducing the risk of contamination from excessive lubricant usage.
  • Maintenance: Regular maintenance and inspections ensure that welded chains are functioning optimally, reducing the likelihood of sudden failures that could lead to environmental impacts or downtime.
  • Energy Efficiency: Implementing energy-efficient equipment and technologies in material handling processes can lead to reduced energy consumption and lower greenhouse gas emissions.
  • Recycling and Disposal: At the end of their lifecycle, responsible recycling or disposal of welded chains is essential to minimize their impact on landfills and the environment.
  • Load Optimization: Proper load distribution and optimization can reduce the strain on the welded chains, promoting longevity and efficiency while minimizing unnecessary energy use.
  • Noise Reduction: Minimizing noise pollution from material handling operations not only benefits the environment but also promotes a healthier and safer workplace for employees.
  • Emission Control: In material handling equipment that relies on combustion engines, implementing emission control technologies helps reduce harmful exhaust emissions.
  • Waste Management: Implement effective waste management practices to handle any waste generated during maintenance, repair, or replacement of welded chains.

By considering these environmental factors, businesses can make informed decisions when using welded chains in material handling, minimizing their ecological footprint and contributing to sustainable practices.

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 supplier 26*92mm Alloy Steel Heavy Duty Welded Mining Chain  China supplier 26*92mm Alloy Steel Heavy Duty Welded Mining Chain
editor by CX 2023-08-18