MANLON Spiral Cable
MANLON, a respected authority in the industry, specializes in designing spiral cables that excel in high flex applications.
These cables are meticulously engineered to withstand the demanding conditions of high flex applications, ensuring reliable and durable performance in challenging settings.
By leveraging cutting-edge manufacturing capabilities, MANLON guarantees timely delivery of spiral cables to businesses globally, catering to the diverse requirements of various high flex applications.

MANLON Spiral cable / Coiled cable - High Flex Applications
Key Features:
– Expertly designed to address the challenges of cable management in high flex applications
– Utilizes premium materials for enhanced durability and extended lifespan in demanding conditions
– Engineered to withstand the rigorous stress and strain typical of high flex applications
– Geared towards enhancing safety and efficiency in high flex operations
– Customizable to meet the specific needs of high flex applications
Reasons to Choose MANLON for Spiral Cables:
– Recognized as a trusted manufacturer with a strong reputation in the high flex industry
– Operates an in-house production facility for prompt delivery to high flex customers
– Committed to upholding the highest standards of quality and customer satisfaction in the high flex sector
– Offers competitive pricing for cost-effective solutions for high flex applications
– Employs a skilled team of professionals to provide personalized support to high flex customers
MANLON Coiled Cables are available in Coss sections ranging from 0.25 mm² to 16 mm² and much more.
MANLON Retractable cables are made in working (Extendable) lengths from 1 Meter to 20 Meter.
MANLON spiral cable is manufactured using formulated thermoplastic polymer - PVC / PA/ PUR/ TPE/ TEFLON as core and outer jacket.
Manufacturing Since 1987
Spiral cables offer significant benefits to high flex applications by ensuring reliability and durability in demanding conditions.
These cables are engineered to withstand the rigors of high flex environments, including repetitive bending, vibrations, and mechanical stress.
This robustness enhances workplace safety and safeguards the welfare of personnel in high flex facilities.”