China factory OEM High Performance Engineering Plastic Chain Guide Wear Strips POM UHMWPE Nylon Guide Rai

Product Description

OEM High Performance Engineering Plastic Chain Xihu (West Lake) Dis. Wear Strips POM UHMWPE Nylon Xihu (West Lake) Dis. Rai

 

Products Description 
Our advantages:
Material: UHMWPE/HDPE/PP/Nylon
Produce Procedure: CNC, Injection etc.
Shape: Any, according to the drawing
Size: Any size is available
Color: Black, White, Yellow, Green, Blue etc.
Fast shipment, short production time, superior quality
Here, we could meet all your requirements for customized plastic parts

Introduction

UHMW-PE is defined as polyethylene whose molecular weight is 3.1 million or higher. When making this determination, it was found that physical properties increased rapidly as lower CHINAMFG values increased, and then leveled off at the 3,100,000 value. As with most high-performance polymers, the processing of UHMW-PE is not easy. Because of its high melt viscosity, conventional molding and extrusion processes would break the long molecular chains that give the material its excellent properties. Current manufacturing methods include compression molding, ram extrusion and the warm forging of extruded slugs. UHMW-PE has the outstanding abrasion resistance and an extremely low coefficient of friction. Impact strength is high and chemical resistance is excellent.

The material does not break in impact strength tests using standard notched specimens; double-notched specimens break at 20 ft-lb/in (42.1 kJ/m2). UHMW-PE has a crystalline melting point of 267°F (131°C). The recommended maximum service is about 200°F (93°C).
 Care should be taken when fastening UHMW-PE, as its large thermal expansion can cause the material to buckle between fasteners if they are too far apart.
UHMW (ultra-high molecular weight polyethylene) is an extremely tough plastic with high abrasion and wear resistance.
The versatility of polyethylene has made it a popular plastic for countless industrial applications that require durability, low friction, and chemical resistance.


These wear strips are mounted on the tracks over which the chain travels. Special Antistatic grade of Ultra High Molecular Weight Polyethylene (UHMWPE having antistatic property ensures its suitability for LPG installations, reducing chances of sparks / static current developed because of friction. Various Rectangular, Square, Trapezoidal cross sections, “C” Profile , Special shapes, Curves etc. are available suitable for all installations. Installation of these liners ensures prolonged working of dry chains in dusty atmosphere. 

Bottling / Conveying Machinery:
Wear Strips, Machined and Extruded Profiles as Xihu (West Lake) Dis.s, Star Wheels, Timing Screws, Dead Plates and Conveyor Curves. Ideal for use in Breweries, CHangZhou Plants, etc.

Paper Industry:
Suction Box Tops, Forming Boards, Foil Blades, Doctor Blades, Sealing Strips, Deckles and Febriculas.

Mining / Bulk Materials:
Chute Liners, Bin Liners, Truck Liners, Impact Slider Bars, Scraper Blades and Wear Plates

Filter Industry :
Different kinds of filters like Drum Filters, Disc Filters, Belt Filters, etc.

Cold Rolling Industry :
Roll Pads, Roll Racks, Saddle Blocks, Roll Drives & Xihu (West Lake) Dis. Boards.

Chemical Industry :
Spray Nozzles, Flanges, Impellers, Pump Casings, Filter Plates and Frames, Wear Parts for Belt Filters, etc.

Characters:

  • very flat on the surface  
  • The thickness tolerance is +2 -0mm,some made according to your requirements.
  • The color is pure and any color can be made by us.
  • We can give you an accurate size of UHMWPE Components with advanced machine.
  • Different shaped UHMWPE components also can be made by us like bending sheet.
  • According to different requirements with different application, special specifications can be customized, like anti-UV, fire-resistant,anti-static and with other characters.
  • Highest abrasion resistance of any polymer, 6 times more abrasion resistant than steel
    Very low water absorption
    Excellent impact resistance
    Good corrosion & chemical resistance
    Noise-absorption & Vibration-absorption

Excellent Chemical Resistance Machined UHMW Polymer Parts Application

1. Conveyor Paddle
2. Impact Bar
3. Dock Bumper
4. Pipe Support Block
5. Chain guide
6. Pulley and Roller
7. UHMWPE Saddle or Block
8. Machine wear block and strips
9. Other machined parts

Any size, Shape are available with us.

Advantages

Self-lubricating.
Good Abrasion&wear resistance (15 times more resistant to abrasion than carbon steel).
Corrosion & impact resistant.
low temperature resistant.
Non-water absorption
Easy to machine

 

roperty:

Test Method (Standard)

Ticona GUI4152

Ticona GUI4150,4120

Unit

Molecular weight

 

1.5million-4million

1.5million-8million

 

Density

ISO 1183-1:2012/DIN53479

0.92-0.98

0.93-0.98

g/cm³

Compression strength

ISO 604:2002

≥30

≥32

Mpa

Tensile strength

ISO527-2:2012

≥20

≥22

Mpa

Elongation at break

ISO527-2:2012

≥280

≥300

%

Dynamic Friction coefficient

ASTM D 1894/GB10006-88

≤0.20

≤0.18

 

Notched impact strength (Charpy)

ISO179-1:2571/GB/T 1043.1-2008

≥100

≥100

kJ/m2

Abrasion wear index

ES-X65710-2008

≤30

≤30

mg

Vicat softing point

ISO306:2004

≥80

≥80

°C

Hardness shore-D

ISO 868:2003

60-65

61-66

D

Our factory

FAQ
Q: Are you trading company or manufacturer ?
A: We are factory.
Q: How long is your delivery time?
A: Generally it is 5-10 days if the goods are in stock. or it is 15-20 days if the goods are not in stock, it is according to quantity.
Q: Do you provide samples ? Is it free or extra ?
A: Yes, we could offer the sample for free charge but do not pay the cost of freight.
Q: What is your terms of payment ?
A: Payment=1000USD, 30% T/T in advance, balance before shippment. /* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Application: Warehouse Crane, Shipboard Crane, Goods Yard Crane, Building Crane, Workshop Crane
Material: PE
Structure: Custom
Installation: All Truck
Carrying Capacity: Custom
Running Mode: Moving
Samples:
US$ 10/kg
1 kg(Min.Order)

|
Request Sample

Customization:
Available

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Customized Request

engineering chain

How do engineering chains handle misalignment between sprockets?

Engineering chains are designed to handle some degree of misalignment between sprockets. Misalignment can occur due to various factors such as improper installation, wear and elongation of the chain, or inaccuracies in the machinery. While some misalignment is inevitable in many industrial applications, excessive misalignment should be avoided to ensure optimal chain performance and longevity.

Here’s how engineering chains handle misalignment:

  1. Flexible Construction: Engineering chains are constructed with flexible components such as pins, rollers, and bushings. This design allows the chain to adapt to minor misalignments without putting excessive stress on the chain or sprockets.
  2. Articulating Joints: The articulating joints in the chain allow it to articulate smoothly around the sprockets, accommodating minor misalignment during the rotation. This helps reduce wear on the chain and sprockets.
  3. Tolerance for Misalignment: Manufacturers provide specifications for the allowable misalignment between sprockets. Engineering chains are designed to handle a certain level of misalignment within these tolerances without significantly affecting their performance.
  4. Proper Installation: Correct installation of the engineering chain is crucial to minimizing misalignment issues. Ensuring proper tension, alignment, and center-to-center distance between sprockets can help reduce misalignment and prolong chain life.
  5. Regular Maintenance: Regular maintenance, including chain inspection and lubrication, can help identify and address misalignment issues early on. Promptly correcting misalignment can prevent further damage and ensure efficient chain operation.
  6. Alignment Devices: In some cases, alignment devices or tools may be used during installation to ensure accurate alignment between the sprockets. These devices can help improve chain performance and reduce wear caused by misalignment.

It is essential to follow the manufacturer’s guidelines for chain installation, maintenance, and alignment to optimize the performance and service life of engineering chains. Addressing misalignment issues promptly and keeping the chain in proper working condition will contribute to the overall reliability and efficiency of the machinery or equipment in which the chain is used.

engineering chain

How do engineering chains perform in dusty or dirty environments?

In dusty or dirty environments, engineering chains face unique challenges due to the presence of contaminants that can affect their performance and longevity. However, many engineering chains are designed to handle such harsh conditions, and their performance can be enhanced with proper maintenance and considerations.

1. Sealing and Protection: Some engineering chains come with specialized seals or protective coatings to prevent dust, dirt, and other contaminants from entering the chain’s internal components. These seals help maintain the integrity of the lubrication and reduce the risk of abrasive particles causing wear.

2. Lubrication: Proper and regular lubrication is essential for engineering chains operating in dusty environments. Lubrication helps reduce friction and wear, flushing out contaminants that may have entered the chain. It’s crucial to use lubricants suitable for dusty conditions to prevent excessive buildup of dirt and debris.

3. Cleaning and Maintenance: Regular cleaning and maintenance are crucial to keep the chain functioning optimally in dirty environments. Removing accumulated dirt and debris helps prevent abrasive wear and elongation of the chain.

4. Material Selection: Choosing the right materials for the chain is vital for dusty environments. Chains with corrosion-resistant coatings or made from stainless steel can better withstand the abrasive nature of dust and dirt.

5. Chain Design: The design of the engineering chain can also influence its performance in dusty environments. Some chains have self-cleaning features or specific geometry that helps shed dirt and debris during operation.

6. Regular Inspection: Regular visual inspection of the chain can help identify signs of wear and contamination early on, allowing for timely maintenance or replacement.

7. Environmental Considerations: Understanding the specific conditions of the dusty environment is essential for selecting the most suitable engineering chain. Factors such as temperature, humidity, and the type of contaminants present should be taken into account.

8. Ingress Protection (IP) Rating: In certain industries, such as food processing or pharmaceuticals, engineering chains with specific IP ratings may be required to ensure compliance with hygiene and cleanliness standards.

In conclusion, engineering chains can perform well in dusty or dirty environments if properly selected, installed, and maintained. Regular cleaning, lubrication, and inspection are essential to ensure optimal performance and extend the chain’s service life in such challenging conditions.

engineering chain

How does an engineering chain differ from a standard roller chain?

Engineering chains and standard roller chains share similarities in terms of their basic design, consisting of interconnected links that engage with sprockets for power transmission. However, there are key differences between the two types of chains:

  • Application: Standard roller chains, also known as transmission chains, are primarily used for power transmission in industrial applications. They are commonly found in machinery, automotive, and other power transmission systems. On the other hand, engineering chains have a broader range of applications and are specifically designed for various industrial uses beyond pure power transmission.
  • Design and Construction: Engineering chains are available in different configurations and materials to meet specific industrial needs. They come in various types like drag chains, apron chains, leaf chains, and more, each tailored for a particular application, such as material handling, lifting, or conveying. Standard roller chains have a more standardized design with cylindrical rollers, providing smooth motion in power transmission applications.
  • Attachments: Engineering chains often feature attachments or extended pins that allow for the connection of specialized components or accessories. These attachments can be used for carrying loads, attaching products, or facilitating specific tasks in industrial processes. Standard roller chains, on the other hand, typically do not come with attachments.
  • Load Capacity: Engineering chains are designed to handle a wide range of loads, including heavy loads, abrasive materials, and harsh environmental conditions. They are built to withstand the demands of rugged industrial settings. Standard roller chains are suitable for general power transmission applications and may not be as robust as engineering chains in challenging environments.
  • Specialty Chains: Engineering chains include various specialty chains that cater to specific industries and applications, such as mining, agriculture, escalators, and more. Standard roller chains do not have the same diversity of specialized variants.

In summary, engineering chains are more versatile and adaptable, tailored to a broader range of industrial applications beyond power transmission. They offer a wider variety of designs, materials, and attachments to suit specific needs, making them suitable for demanding and specialized tasks in various industries.

China factory OEM High Performance Engineering Plastic Chain Guide Wear Strips POM UHMWPE Nylon Guide Rai  China factory OEM High Performance Engineering Plastic Chain Guide Wear Strips POM UHMWPE Nylon Guide Rai
editor by CX 2023-12-22