Radiation Cross-linkable Cable Compounds

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Radiation Cross-linkable Cable Compounds

Name: Radiation Cross-linkable Cable Compounds
Brand: TAPRATH ELASTOMERS DIVISION
Price: 200.0 INR
Availability: InStock

Price 200.0 INR/ Kilograms

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MOQ : 1000 Kilograms

Radiation Cross-linkable Cable Compounds Specification

Usage & Applications
Automotive wire, Appliance wire, Power & control cables, Signal cables

Dielectiric Strength
24 kV/mm

Armored Material
Available on request

Core Material
Copper/Aluminum

Rated Temperature
Up to 125C

Install Type
Indoor, Outdoor, Underground installation possible

Conductor Type
Stranded or Solid

Insulation
XLPE/Polyolefin based

Diameter
As per customer specification

Cable Type
Insulated & Jacketed Cable Compounds

Weight
Varies with cable size

Operating Temperature
-40C to 125C

Features
Enhanced electrical properties, High heat resistance, Radiation cross-linkable, Improved mechanical strength, Superior aging performance

Tensile Strength
>= 12 MPa

Conductor Shape
Round

Impedance
As per cable specification

Number of Conductor
Customized

Core Number
Single or Multi core

Product Type
Radiation Cross-linkable Cable Compound

Length
Customized

Voltage
Up to 1 kV

Insulation Material
Polyethylene or Polyolefin based compound

Application
Used in cable insulation and jacketing for automotive, telecommunication, and electronic cables

Conductor Material
Copper or Aluminum

Jacket Material
Radiation cross-linkable compound (Polyethylene/Polyolefin based)

Storage Temperature
-20C to 35C

Connector Color
As per customer requirement

Shield Material
Optional based on cable design

Jacket Color
Natural, Black, or as per customer requirement

Dimension (L*W*H)
As per cable design specification

Material
Cross-linkable Polyethylene/Polyolefin compound

Color
Natural, Black or as required

Size
Standard/Customized

Cross-linking Method
Electron beam (radiation) cross-linking

Shelf Life
Minimum 12 months in dry, cool storage conditions

Packaging
25 kg bags or as per customer requirement

Toxicity
Halogen-free grades available

Elongation at Break
>= 200%

Processing
Easy processability with conventional extruders

Compatibility
Suitable for various extrusion processes

Flame Retardancy
Available on request

RoHS Compliance
Compliant

Radiation Cross-linkable Cable Compounds Trade Information

Minimum Order Quantity
1000 Kilograms

Supply Ability
1000 Kilograms Per Month

Delivery Time
10 Days

Sample Available
No

Main Export Market(s)
Asia, Australia, Central America, North America, South America, Eastern Europe, Western Europe, Middle East, Africa

Main Domestic Market
All India

About Radiation Cross-linkable Cable Compounds

Irradiation technology has been in existence since seventies to crosslink insulation and sheath of cables. Radiation Cross-linkable Cable Compounds are offered with temperature as well as creep resistance. In addition, these are suited for the manufacturing of cables, enabling them to endure harsh environments as well as high temperatures. It has been made from thermoplastic polymers and boasts of high thermal stability and enhanced mechanical strength. It function as the highly significant constituent in the production of high-performance cables which can work well even in the challenging environments.

Advanced Cross-Linking for Durable Cables

Electron beam (radiation) cross-linking reinforces the cable compound's molecular structure, resulting in significantly enhanced heat resistance, mechanical robustness, and electrical integrity. This method ensures long-lasting performance even in demanding environments, making the cables ideal for automotive, telecommunication, and electronic applications.

Flexible Customization for Every Need

These compounds are highly adaptable in terms of color, core material, core number, dimensions, packaging, and length, meeting diverse installation requirements. Whether it's indoor, outdoor, or underground use, the product can be tailored to suit the specific cable design, functional, and aesthetic specifications provided by the customer.

Safe and Eco-friendly Material Choices

Halogen-free grades are available to promote non-toxic cable solutions, while all products comply with RoHS standards for environmental safety. Flame retardant properties further enhance safety, and long shelf life facilitates reliable inventory management. Supported by versatile extrusion compatibility, these compounds bring value across the cable manufacturing sector.

FAQ's of Radiation Cross-linkable Cable Compounds:

Q: How does electron beam cross-linking improve cable compound performance?

A: Electron beam (radiation) cross-linking induces changes in the polymer's molecular structure, enhancing heat resistance, mechanical strength, and electrical properties. This process delivers cables with superior longevity and reliability under challenging operating conditions.

Q: What advantages do halogen-free and RoHS-compliant cable compounds offer?

A: Halogen-free grades minimize toxic emissions during fires, providing improved safety for users and the environment. RoHS compliance ensures that the compounds meet environmental regulations, making them suitable for global markets.

Q: When is flame retardancy available for these cable compounds?

A: Flame retardancy is offered upon customer request, allowing users to specify it during the ordering process to meet safety standards required for specific cable installations.

Q: Where can radiation cross-linkable cable compounds be used?

A: These compounds are ideal for automotive wires, appliance wires, power and control cables, and signal cables. They are suitable for installations indoors, outdoors, and underground, meeting a wide range of environmental and application needs.

Q: What is the recommended process for extrusion of these cable compounds?

A: The compounds are engineered for easy processing with conventional extruders. They are compatible with various extrusion methods, allowing for efficient production and consistent cable quality.

Q: What are the main benefits of using these cable compounds in cable manufacturing?

A: Key benefits include enhanced heat and mechanical performance, superior electrical insulation, improved flame retardancy, aging resistance, ease of processing, and customizable options tailored to specific requirements.

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