China supplier CZPT Alloy Steel Welded Marine Mooring Link Chain for Lifting

Product Description

Grade 80 Alloy Steel Link Chain

* Alloy chain is designed and manufactured for superior performance and usage. 
* It can easy withstand more abuse, abrasion resistance, greater load lifting per size.
* It is lighter to handle for operations.
* Material alloy steel, heat treated and proof tested. 
* Safety factor 4: 1
* Tougher and more reliable for lifting application. 
* Minimize downtime operation and more durable surpassed safety record. 
* Finish: Available with self-coloured, black tempered, blue painted, and red painted. 
* Permanently embossed with desired marking for easy identification and traceability.  
* Standard: EN818-2.

Product Alloy Steel Chain
Standard EN818-2, GB/T20652, GB/T12718, GB/T20946, DIN5685. 
Size 3mm-72mm
Material Alloy steel / carbon steel / stainless steel
Strength Grade G43, G63, G70, G80, G80
Elongation of Chain Breaking ≥ 16%
Feature It can withstand more abuse, abrasion resistance
Tougher and more reliable for lifting application
Do 2.4 times of WLL manufacturing validation strength tensile test. 
Safety factor: Min. 4: 1
Long service life
Finish Self-colored, black tempered, electro galvanized, hot-dipped galvanized, painted.  
Application Overhead lifting, dragging, chain slings, etc
Packing List Plywood reel / plastic reel / plastic drum / gunny bag / iron drum+plywood pallet / iron pallet
Delivery Time 20~40 days

Chain Details

Drawing and Data

Chain dia. 
B (mm)
Inside length
T (mm)
Inside width
B1. (mm)
Outside width
B2. (mm)
Working load 
(t)
Breaking load 
(t)
Weight
(kg/m)
3 9 3.8 10.7 0.36 14.1 0.21
4 12 5 14.3 0.63 25.1 0.35
5 15 6.3 16.5 1 3.16 0.5
6 18 7.5 20 1.44 4.56 0.8
6.3 19.8 8.2 20.8 1.6 5 0.84
7 21 9 24.5 1.92 6 1.1
7.1 21.3 9 24.5 2 6.32 1.15
8 24 10 28 2.5 8 1.4
9 27 11 31.5 3.15 10.2 1.82
10 30 12.5 35 4 12.8 2.2
11 33 12.6 36.5 4.2 15.2 2.33
12 36 15 42 4.6 18.4 3.1
13 39 16.3 46 5.3 21.2 3.7
14 42 18 49 6.3 25.2 4.13
15 46 20 52 7 28 5.17
16 48 20 56 8 32 5.63
18 54 23 63 10 40 6.85
19 57 23.7 63.2 11.3 45.2 7.8
20 60 25 70 12.5 50 8.6
22 66 28 77 15.3 61.2 11
24 72 32 82 18 72 12.8
26 78 35 91 21.3 85.2 14.9
32 90 38 105 28.3 113.2 19.6
34 102 46.5 121.2 36.3 145.2 25.5
36 108 49.5 128.5 40.7 162.8 31
38 114 52 136 45.3 181.2 32
42 126 55.5 144.5 55.4 221.6 38.6
48 144 62.4 177.6 72.3 289.2 52
50 150 65 185 80 320 56
52 156 67.6 192.4 85 340 59
56 168 72.8 207.2 100 400 72.5
63 190 81.9 233.1 125 500 89
72 210 91 259 160 640 110

Application
Factory

Package

Related Products

Contact

Usage: Heavy Duty Lifting
Material: Alloy
Surface Treatment: Baking Paint
Feature: Heat Resistant
Chain Size: 3mm-72mm
Structure: Welded Chain
Samples:
US$ 2/Meter
1 Meter(Min.Order)

|
Request Sample

Customization:
Available

|

Customized Request

welded chain

How do welded chains perform in continuous operation and frequent starts/stops?

Welded chains are designed to perform reliably in continuous operation and frequent starts/stops, making them suitable for various industrial applications with demanding operational requirements. Here’s how welded chains handle such conditions:

  • High Durability: Welded chains are typically made from durable materials like carbon steel or alloy steel, allowing them to withstand continuous operation and frequent stops without experiencing premature wear or failure.
  • Smooth Operation: Well-manufactured welded chains offer smooth and consistent movement, reducing jolts and stress during starts and stops, which helps prevent sudden impacts on the chain and other connected components.
  • Proper Lubrication: Regular lubrication of the welded chain’s moving parts reduces friction and wear, ensuring smooth operation even during continuous use and frequent starts/stops.
  • Heat Treatment: Some welded chains may undergo heat treatment processes to enhance their hardness and wear resistance, further improving their ability to handle continuous operation and frequent stops.
  • Load Distribution: Welded chains distribute loads evenly across their links, minimizing stress concentrations and improving their fatigue resistance, which is essential for continuous and repetitive operation.
  • Quality Manufacturing: Properly manufactured welded chains undergo stringent quality control measures to ensure their reliability and performance under challenging operational conditions.
  • Regular Inspection and Maintenance: Periodic inspection and maintenance are vital to detect any signs of wear, deformation, or damage that may occur during continuous use and frequent starts/stops. Timely maintenance can extend the chain’s service life and prevent unexpected failures.
  • Compatibility with Machinery: Welded chains are designed to work seamlessly with various types of machinery and equipment, making them suitable for continuous operation and frequent starts/stops in industrial settings.

Considering these factors, welded chains demonstrate excellent performance in continuous operation and frequent starts/stops, making them a reliable choice for material handling, conveyor systems, and other applications that require continuous and repetitive movement of loads.

welded chain

Can welded chains be used in the automotive manufacturing and assembly lines?

Yes, welded chains are commonly used in automotive manufacturing and assembly lines for various essential applications. Here’s how they are utilized in this industry:

  • Conveyor Systems: Welded chains are employed in conveyor systems to transport automotive components and parts between different stages of the assembly process.
  • Robotic Handling: In automated automotive assembly lines, welded chains are used in robotic handling equipment to move and position parts accurately and efficiently.
  • Body-in-White (BIW) Welding: Welded chains play a crucial role in BIW welding fixtures, ensuring precise alignment and positioning of car body components during welding processes.
  • Overhead Conveyors: Welded chains are utilized in overhead conveyors to move vehicle components along the assembly line without taking up valuable floor space.
  • Pallet Handling: Automotive parts are often transported on pallets, and welded chains are used in pallet handling systems for smooth and reliable movement.
  • Transfer Systems: Welded chains facilitate the transfer of automotive parts between different workstations and assembly stations.
  • Painting and Coating Lines: Welded chains are used in painting and coating lines to move car bodies through the painting and finishing processes.
  • Testing and Inspection Equipment: Welded chains are utilized in testing and inspection equipment to move vehicles through quality control processes.
  • Engine and Powertrain Assembly: In engine and powertrain assembly lines, welded chains are used in various equipment and fixtures to ensure precise alignment and positioning of components.
  • End-of-Line Testing: Welded chains are used in the end-of-line testing process to transport vehicles through final inspections and quality checks.

Welded chains are preferred in the automotive industry for their strength, durability, and ability to handle continuous and demanding operation. Their reliability and efficiency contribute to the smooth functioning of automotive manufacturing and assembly lines, ensuring the timely production of high-quality vehicles.

welded chain

How does a welded chain differ from other types of industrial chains?

A welded chain differs from other types of industrial chains primarily in its construction method. Unlike other chains that may use various methods of assembly, welded chains are made by welding individual links together to form a continuous chain. Here are the key differences between welded chains and other types of industrial chains:

1. Construction: Welded chains are made by permanently joining individual links through welding, while other chains may be assembled using press-fits, pins, or rivets.

2. Strength: The welding process creates a strong and reliable connection between the links, making welded chains suitable for heavy-duty applications where high strength is required.

3. Flexibility: Welded chains may have reduced flexibility compared to some other types of chains due to the rigid nature of the welded joints.

4. Customization: Welded chains are often made to standard sizes and configurations, whereas other chains may offer more options for customization, such as adjustable length or detachable links.

5. Welded Joints: Welded chains have visible welded joints at each link, while other chains may have different types of connections that are less noticeable.

6. Durability: The welded construction of these chains provides excellent durability and resistance to wear and tear.

7. Maintenance: Due to their welded nature, these chains may require specialized tools and equipment for repair or maintenance.

8. Specific Applications: Welded chains are commonly used in heavy-duty and high-load applications, while other types of chains may be more suitable for different industries or lighter loads.

9. Cost: The manufacturing process of welded chains may result in different cost considerations compared to other types of chains.

Overall, welded chains are chosen for their strength, reliability, and suitability for demanding industrial applications. However, the selection of the most appropriate chain type depends on the specific requirements of the application, including load capacity, environmental conditions, and the desired level of customization.

China supplier CZPT Alloy Steel Welded Marine Mooring Link Chain for Lifting  China supplier CZPT Alloy Steel Welded Marine Mooring Link Chain for Lifting
editor by CX 2023-11-20