Product Description

Product introduction

 

1. Size 6mm to 22mm, alloy steel 25MnV or 20MN2,

 

24mm to 42mm using imported German 23MnNiMoCr54 alloy steel

 

2. Surface: self-coloring, painted black; Plastic coated galvanized

 

3. Safety factor :4:1

 

4. Comply with EN818-2 standard

 

5. Standard CHINAMFG or customer requirements, at least 1 meter apart

 

6. Serial number printed on high power round steel chain;

 

All production and certification dates are also recorded. Mark once per Meter run.

Product specification

Product name 10mm Grade 80 Chain Lift Anchor Transport Welded Alloy Carbon Stainless Steel Heavy Duty Lifting Chain with Hook
Grade Grade 80 Grade 100 or as your request
Size 4/5/6/7/8/10/11/12/13/16/19/20/22/28/32mm or as your request
Color Black , Self color ,Yellow , Red or As your request
Length Custom
Material Alloy steel, 20Mn2A, Stainless steel , high carbon steel .
Surface treatment Blacken finished ,Hot dip galvanized , electroplating , powder coating ,black painted .
Structure Welded chain
Process Fully automatic deburring
Sample Support
OEM&ODM Support
MOQ 2T
Standards G30 G43 G70 CHINAMFG chains NACM/SATM chains
Certificate ISO9001 & CE
Method of payment T/T ,Western Union.
Key words 10mm Grade80 Chain Lift Anchor Transport Welded Alloy Carbon Stainless Steel Heavy Duty lifting chain ;Single Leg CHINAMFG G100 EN818 polished Electric hot dip galvanized black finished painted lifting chain;Us standard black self color plated zinc strong chromate coating 1leg 2legs 3legs 4legs lifting chain

HangZhou CHINAMFG CO, Ltd. The company is located in ZheJiang province on the east coast of China. As a professional chain manufacturer, QRE focuses on the production and technology of carbon steel, alloy and stainless steel chains, and has established a good reputation and reputation in the local market.

1. High quality alloy material, strong and durable.

2.Thick and bulky, not decoupling, carrying capacity is stronger. Any combination of rigging to meet different use requirements

3. Finishing is not only smooth surface, but also improve its wear resistance, corrosion resistance, rust resistance to obtain high hardness.

4. All kinds of hooks, rings, widely used in vehicles and boats, machinery, mines, ports and other lifting places.

Purpose of use

 

High strength chain for carrying heavy loads

 

Used for heavy lifting in mines and construction sites

The production process
FAQ

Q1: Are you a trading company or a manufacturer?

 

A1: We are a real factory, with our own foreign trade team, we have more than 15 years of experience in producing all kinds of chains, if you have the opportunity, welcome to our factory.

 

Q2: What kind of chains do you make?

 

A2: Our main products are anchor chain, welded, hot dip galvanized chain, etc.Standard chain and non-standard chain can be produced, such as American Standard chain,G30 coil proof chain,G43 high test chain, G70 transport chain,G80 lifting chain,DIN German Standard 766/763/764 chain, heavy lifting chain. Especially combination chain, traction chain, lashing chain, lifting chain, rigging chain, etc.

 

Q3: Do you offer custom products or do you accept OEM for your customers’ brands?

 

Yes, we can provide both OEM and ODM services.

 

2) We can produce according to customers’ samples.

 

3) Or before production, according to customer requirements, our engineers to carry out design and drawing.

 

Q4: Is it possible to stamp or mark the chain as required by the customer?

 

Yes, we can stamp or mark according to customer’s requirement.
Certificate
Our team

Warranty: 2years
Type: Chain Sling
Material: Steel
Samples:
US$ 1/Meter
1 Meter(Min.Order)

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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.

engineering chain

How do engineering chains handle variable speed requirements?

Engineering chains are designed to handle variable speed requirements in power transmission systems. They are capable of accommodating a wide range of speeds without compromising their performance or durability. Here’s how engineering chains handle variable speed conditions:

  • Flexible Design: Engineering chains are constructed with a flexible design that allows them to adapt to changes in speed. The chain’s links and rollers can smoothly engage and disengage with the sprockets, ensuring efficient power transmission even at varying speeds.
  • Smooth Operation: The precision manufacturing of engineering chains ensures smooth and consistent operation across different speed ranges. This smooth operation reduces vibration and noise, minimizing wear and tear on the chain and sprockets.
  • Lubrication: Proper lubrication is essential for engineering chains to handle variable speed conditions. Lubrication reduces friction between the chain’s components, preventing premature wear and enhancing the chain’s ability to operate effectively at different speeds.
  • Load Distribution: Engineering chains distribute the transmitted load evenly across their links, reducing stress concentration points. This load distribution capability enables the chain to handle varying torque and speed requirements without compromising its strength or performance.
  • High-Quality Materials: The use of high-quality materials in engineering chains ensures their ability to withstand the rigors of variable speed applications. High-grade alloy steels or stainless steels are often used to enhance the chain’s strength, durability, and resistance to fatigue.
  • Proper Tensioning: Maintaining the appropriate tension in the engineering chain is crucial for reliable performance at varying speeds. Proper tensioning prevents chain slack and excessive wear, ensuring the chain remains engaged with the sprockets at all times.
  • Variable Pitch Chains: In some applications, engineers may opt for variable pitch chains. These chains have special designs that allow them to accommodate variable speed conditions more effectively.

By considering factors such as chain design, lubrication, load distribution, material quality, and tensioning, engineering chains can smoothly handle variable speed requirements in various industrial applications. Ensuring proper maintenance and selecting the appropriate chain type for the specific application will maximize the chain’s performance and service life.

engineering chain

How do engineering chains handle reverse motion or anti-reverse requirements?

Engineering chains are designed to handle reverse motion or anti-reverse requirements in certain applications. This capability is essential in situations where the load or the machinery needs to move back and forth. Here’s how engineering chains achieve this:

1. Tooth Shape: Many engineering chains, such as roller chains or silent chains, feature a specific tooth shape on the sprockets. The tooth profile is designed to engage the chain rollers or links in one direction, allowing smooth motion, while preventing engagement in the reverse direction, effectively acting as an anti-reverse mechanism.

2. One-Way Clutches: Some engineering chain applications may incorporate one-way clutches or overrunning clutches. These devices allow the chain and sprockets to engage and transmit power in one direction, while freewheeling or disengaging in the opposite direction, preventing reverse motion.

3. Ratcheting Mechanisms: In certain engineering chain systems, ratcheting mechanisms are employed to allow forward motion and prevent backward movement. These mechanisms consist of pawls and teeth that engage in one direction and disengage in the reverse direction, effectively providing an anti-reverse function.

4. Backstop Clutches: Backstop clutches are used to prevent reverse motion in specific engineering chain applications. These clutches allow the chain to engage and transmit power in one direction, while locking and preventing motion in the reverse direction.

5. Tensioning Devices: Proper tensioning of the engineering chain can also play a role in preventing reverse motion. Adequate tension helps keep the chain engaged with the sprockets in the desired direction, reducing the risk of slipping or backdriving.

6. Design and Orientation: Engineers can design the system in a way that naturally discourages reverse motion. For example, the layout of the chain path and the arrangement of sprockets can make it less likely for the chain to move in the opposite direction.

By using these methods and incorporating suitable components, engineering chains can effectively handle reverse motion or anti-reverse requirements, ensuring the safe and reliable operation of machinery in applications where back-and-forth motion is necessary.

engineering chain

What are the maintenance requirements for engineering chains?

Maintaining engineering chains is essential to ensure their longevity, reliable performance, and safe operation in industrial applications. The following are key maintenance requirements for engineering chains:

1. Regular Inspection: Conduct routine visual inspections of the chain to check for signs of wear, corrosion, or damage. Look for elongation, bent or broken links, and worn sprocket engagement areas.

2. Lubrication: Proper and timely lubrication is crucial for reducing friction and wear between chain components. Lubricate the chain using a suitable lubricant as recommended by the manufacturer.

3. Tension Adjustment: Check and adjust the chain’s tension regularly to maintain the correct amount of slack. Proper tension ensures efficient power transmission and minimizes stress on the chain and sprockets.

4. Cleaning: Keep the chain clean and free from debris, dirt, and contaminants that may accelerate wear and corrosion. Use appropriate cleaning methods and solutions that do not damage the chain’s surface.

5. Replace Worn Components: Replace any worn or damaged components, such as chain links or sprockets, promptly to prevent further damage and potential chain failure.

6. Avoid Overloading: Do not subject the engineering chain to loads exceeding its capacity. Overloading can lead to premature wear and failure.

7. Environmental Considerations: Consider the environment in which the chain operates. In corrosive or harsh environments, choose chains with appropriate coatings or materials to resist corrosion.

8. Follow Manufacturer’s Recommendations: Adhere to the manufacturer’s maintenance guidelines and recommended service intervals specific to the engineering chain model and application.

9. Training and Safety: Ensure that personnel handling the chain are properly trained in maintenance procedures and safety protocols.

10. Record Keeping: Maintain detailed records of maintenance activities, inspections, and replacements to track the chain’s condition and performance over time.

By following these maintenance requirements, industrial operators can extend the life of engineering chains, prevent unplanned downtime, and ensure safe and efficient operation in their respective applications.

China manufacturer Adjustable Galvanized Chain Used for Marine Engineering  China manufacturer Adjustable Galvanized Chain Used for Marine Engineering
editor by CX 2023-11-29