Question
Any questions about DEV Polymer
Cable compounds serve house wiring, automotive, industrial power, renewable energy, communication and healthcare sectors. Their versatility across applications ensures safe energy transmission, reliable performance and durability, meeting diverse requirements from residential projects to advanced industrial and renewable energy infrastructures.
PVC compounds are widely used for insulation and sheathing with strong dielectric and flame-retardant properties, while NBR compounds excel in flexibility, abrasion resistance and chemical stability. Both serve unique roles in meeting industry-specific cable performance and safety requirements.
Yes, formulations can be tailored for insulation thickness, voltage class, thermal endurance, flame retardancy and flexibility. Manufacturers can request compounds that align with specific performance needs, enabling them to deliver cables optimized for particular industries, applications and environmental conditions.
Flame retardant and FRLS cable compounds minimize fire risks by reducing flame spread, smoke generation and toxic gas emissions. Their role is critical in enhancing occupant safety, protecting assets and ensuring compliance with safety regulations in residential, industrial and public infrastructure projects.
Compounds undergo rigorous evaluation including tensile strength, elongation, thermal aging, flame retardancy, dielectric strength, UV resistance and chemical stability. Each batch is tested against national and international benchmarks to ensure consistent quality, safety and reliability across all cable manufacturing processes.
Yes, solar cable and halogen-free compounds are designed for renewable energy systems. They enhance the lifespan and safety of photovoltaic projects, reduce environmental impact during fires and support global initiatives focused on sustainability, energy efficiency and long-term clean energy adoption.
Yes, specialized formulations are engineered to handle both high and low temperatures while maintaining insulation and mechanical strength. Their reliability in challenging climates ensures cables remain functional and safe across outdoor installations, automotive applications and renewable energy projects worldwide.
Yes, compounds are versatile across house wires, industrial cables, communication networks and specialized automotive or renewable systems. Their adaptability in insulation and sheathing ensures consistent performance across different sectors, supporting both domestic and large-scale industrial installations with equal efficiency.
Durable compounds extend cable lifespan, minimize maintenance and reduce the need for frequent replacements. Their ability to withstand fire, chemicals, moisture and mechanical stress ensures manufacturers and end-users achieve maximum return on investment through enhanced performance and operational reliability.
DEV Polymer combines advanced compounding expertise with strict quality control and custom formulation capabilities. Its wide portfolio ensures manufacturers can source high-performance materials that deliver reliable insulation, sheathing and safety solutions across varied sectors while supporting growth in competitive global markets.
Automobile cable compounds provide superior insulation, flexibility and thermal stability that protect wires in high vibration and fluctuating temperature conditions. They prevent short circuits, improve cable durability and maintain consistent electrical performance, ensuring vehicles remain safe, reliable and efficient even under demanding operating environments.
Yes, they are engineered with advanced chemical resistance to withstand fuel, oil and automotive fluids. This ensures that cables retain flexibility, insulation strength and mechanical toughness, preventing premature wear and maintaining reliable performance in cars, trucks and heavy vehicles where exposure to such fluids is common.
The compounds are formulated to manage growing demands of modern automotive electrical systems including infotainment, safety sensors and high-performance engines. They deliver consistent dielectric strength, superior mechanical endurance and thermal reliability, enabling smooth power distribution across advanced electronic features in passenger cars, commercial fleets and specialized vehicles.
Automobile cable compounds are developed in compliance with both national and international automotive norms for insulation, flame retardancy and thermal endurance. Manufacturers can rely on consistent performance and regulatory approvals, ensuring their wiring solutions meet both domestic and export market requirements for safety, reliability and long-lasting operational efficiency.
They are applied in battery cables, ignition wires, lighting circuits, infotainment systems and advanced wiring harnesses. Their balance of flexibility, chemical stability and insulation strength makes them a trusted choice for ensuring reliable electrical connectivity in all areas of modern vehicles, from engine compartments to passenger interiors.
Transparent compounds provide excellent clarity, flexibility and electrical insulation while maintaining durability under continuous usage. Their transparency enables visual inspection of wires and products, making them highly suitable for medical devices, consumer electronics, audio cables and specialty wires where aesthetics and safety are equally important.
Yes, they are widely used in medical devices due to their purity, clarity and chemical stability. Their non-toxic formulation and excellent resistance to wear make them ideal for tubing, cable insulation in healthcare equipment and applications requiring visibility along with reliable performance in critical environments.
They are particularly well-suited for audio and speaker cables because of their transparency, dielectric strength and flexibility. These properties ensure minimal signal loss, easy identification of conductors and long-term durability, enhancing sound quality and providing a clear visual advantage in consumer electronics and professional audio systems.
Yes, they offer robust electrical insulation, mechanical toughness and thermal stability while providing additional clarity. Their performance in protecting conductors is equal to coloured formulations, making them versatile across industries where aesthetics and inspection visibility are valued without compromising safety and reliability in cable systems.
They are applied in wires, audio systems, medical devices and specialty industrial products. Their superior clarity combined with electrical insulation strength makes them highly valuable for sectors requiring both visual inspection and reliable functionality, ensuring safety and durability without sacrificing design or performance standards.
Flame retardant low smoke (FRLS) and flame retardant (FR) PVC compounds significantly reduce flame propagation and limit smoke emission during fire incidents. Their performance ensures safer evacuation, minimizes toxic hazards and helps protect property, making them critical in both residential and industrial electrical wiring applications.
FRLS compounds not only limit flame spread but also release minimal smoke and toxic gases during combustion, improving visibility and safety in enclosed environments. FR compounds primarily focus on flame resistance. Both enhance fire safety, but FRLS is preferred in hospitals, offices and public infrastructure projects.
Yes, they are designed to maintain insulation integrity, flexibility and toughness under normal operating conditions while offering additional fire safety benefits. Their ability to resist thermal aging, electrical stress and mechanical wear ensures long-term reliability of house wires, industrial cables and other insulated systems.
FRLS compounds are especially important in places with high human occupancy like hospitals, schools, shopping complexes, airports and metro stations. Their ability to control smoke density and reduce emission of harmful gases makes them crucial for ensuring safety in critical infrastructure and public environments.
Yes, they are manufactured to comply with BIS and international standards for flame retardancy, smoke emission and toxicity levels. Their certified performance helps cable manufacturers deliver products that align with strict safety regulations across power distribution, building construction and critical public utility installations.
PVC insulation compounds safeguard conductors by providing strong dielectric strength, flexibility and mechanical stability. They prevent short circuits, minimize energy loss and ensure safe current transmission, making them a reliable choice for house wires, industrial cables and automotive wiring systems across diverse applications.
PVC insulation compounds can be tailored to meet precise requirements such as voltage rating, insulation thickness and thermal endurance. This flexibility allows manufacturers to produce cables optimized for house wiring, industrial power distribution, automotive harnesses and communication systems, ensuring performance across varied operating conditions.
They are engineered to withstand elevated temperatures without losing electrical insulation properties. Their thermal stability ensures cables remain safe and durable, even in environments with continuous current flow and fluctuating loads, enabling reliable performance in residential, industrial and automotive wiring applications.
Yes, specialized formulations offer flame retardant properties that control flame spread and provide additional safety. Their design ensures safe installation in residential and commercial wiring networks, reducing the risks of electrical fires and improving the protection of people, property and essential infrastructure.
They are used in house wiring, automotive cables, control cables and industrial power systems. Their balance of dielectric strength, flexibility and flame resistance ensures dependable performance in diverse environments where safety, electrical efficiency and long-lasting insulation are priorities.
Sheathing PVC compounds act as the outer protective layer of cables, safeguarding against moisture, abrasion and mechanical damage. Their strength ensures cables maintain long operational life in residential, commercial and industrial installations while preventing environmental factors from compromising electrical safety.
Yes, they provide excellent resistance to environmental conditions including rain, humidity and chemical pollutants. This weather resistance ensures cables remain durable and safe in outdoor and underground installations, reducing maintenance requirements and extending the service life of power and communication networks.
Yes, their protective performance makes them suitable for communication cables. They ensure reliable signal transmission by preventing physical damage, moisture ingress and chemical interference, making them essential in both urban and remote applications where uninterrupted data transfer is critical.
Yes, they maintain flexibility while providing toughness and abrasion resistance. This combination reduces the risk of installation damage and ensures cables are easy to lay in complex pathways, improving efficiency for contractors while securing long-lasting protection for the internal conductors.
They are applied in house wires, industrial cables and communication networks. Their balance of durability, moisture resistance and mechanical toughness makes them an ideal choice for ensuring safe, efficient and long-term protection across diverse cabling infrastructures and environments.
Solar cable compounds provide protection against ultraviolet rays, high temperatures and harsh outdoor conditions. They prevent cracking, brittleness and insulation failure, ensuring long-lasting performance of solar installations in residential rooftops, commercial projects and large-scale renewable energy parks.
By offering superior dielectric strength and thermal resistance, solar cable compounds ensure minimal energy loss during transmission. This improves system reliability, reduces maintenance requirements and supports consistent performance of photovoltaic systems in diverse climates and operating environments.
Yes, they undergo rigorous testing for UV stability, thermal aging, moisture resistance and mechanical toughness. Their proven durability under extended outdoor exposure ensures solar cables deliver uninterrupted performance throughout the long service life of photovoltaic systems.
Yes, they are formulated to meet national and international performance standards for photovoltaic cabling materials. Compliance with such standards assures manufacturers and end-users that solar installations remain safe, durable and efficient under both normal and extreme conditions.
They are used in DC solar cables, solar main cables and AC connecting cables. Their high-performance insulation and sheathing properties make them essential in rooftop solar systems, industrial projects and utility-scale solar farms, ensuring safe energy transmission and reliable long-term operation.
Welding cable compounds are formulated using NBR materials that deliver exceptional flexibility, abrasion resistance and insulation under high current loads. Their ability to withstand sparks, mechanical stress and demanding environments makes them critical for welding applications in construction, shipbuilding and heavy industries.
They provide high dielectric strength and flame resistance, reducing risks of short circuits and fire hazards. Their robust mechanical protection minimizes wear from dragging and bending, ensuring operators have safe and reliable cables that endure rigorous daily welding operations.
Yes, NBR-based welding cable compounds provide strong resistance against oils, fuels and industrial chemicals. This chemical resilience ensures cable insulation remains intact in challenging environments, reducing maintenance and extending service life for welding cables used in workshops, factories and outdoor conditions.
Yes, they retain flexibility even at low ambient temperatures, preventing insulation cracks and stiffness. This feature allows welding cables to remain durable and easy to handle across varied environments, from indoor workshops to outdoor industrial projects in colder climates.
They are applied in welding cables for industrial machinery, construction sites, shipyards and heavy-duty fabrication units. Their ability to combine flexibility, abrasion resistance and thermal stability ensures cables perform efficiently and safely in all kinds of welding operations and environments.
