300mm x 7.6mm UV & Heat Resistant Cable Ties - Black Nylon Description
The 300mm x 7.6mm UV & Heat Resistant Cable Ties - Black Nylon has the following features:
- Nylon Material
- Nylon 66 Material Specification
- 7.6mm Width (W)
- 300mm Length
- Black Finish
- 50,000 volts/mm Dielectric Strength
- -40ºC - +120ºC Operating Temperature
- UL 94 V-2 Material Flammability Standard
- +/-5mm Length Tolerance
- Halogen Free, ELV, WEEE Additional Compliances
- 54.4 kg Loop Tensile Strength (Min)
- 80mm Maximum Bundle Diameter (B)
- +/-0.2mm Width (W) Tolerance
- -40ºC - +105ºC Operating Temperature (Continuous Exposure)
Discover more about the UV-Resistant Cable Ties range.
UV-resistant cable ties, also known as UV-proof cable ties, are specialised fastening components engineered to bundle cables, wires or hosing with added protection to withstand prolonged exposure to ultraviolet radiation without degrading.
One end of the cable tie features a small, ratcheting head equipped with a self-locking mechanism. When the free end of the tie is looped around a bundle and inserted into the head, the internal clip engages with the teeth, creating a secure and non-reversible lock.
This design allows for quick installation and reliable cable, wire, or hose bundling. The ties are infused with UV stabilisers within the nylon material, enhancing their ability to resist degradation from prolonged exposure to ultraviolet radiation.
How UV-Resistant Cable Ties Work
The durability of UV-resistant cable ties lies in their material composition. The UV stabilisers integrated into the nylon absorb and dissipate harmful UV rays, preventing the molecular breakdown that causes brittleness in regular ties. This makes them indispensable in industries like solar energy, where they secure wiring in photovoltaic systems exposed to constant sunlight.
In maintenance work, these UV-rated cable ties can fasten scaffolding nets and temporary power cables, maintaining reliability throughout the project. For marine applications, they resist the combined effects of sun and saltwater, ensuring equipment remains securely fastened.
Material UV-Resistant Cable Ties Are Made From
These UV-protected cable ties are made from premium-grade nylon 66, renowned for its excellent strength-to-weight ratio and resistance to abrasion and chemicals. The addition of UV stabilisers transforms them into UV-resistant zip ties capable of withstanding harsh outdoor conditions.
Nylon's inherent properties allow these ties to operate effectively in temperatures ranging from -40ºC to +120ºC, making them suitable for extreme climates - from monitoring snowfall in freezing environments to traversing scorching desert landscapes in rally cars. The UV protection ensures longevity, reducing maintenance and replacement costs in long-term installations.
Size and Type UV-Resistant Cable Ties Available
Our UV-resistant cable ties come in a comprehensive range of sizes to meet diverse application needs. Lengths vary from 100mm to a substantial 1030mm, accommodating bundle diameters from a minimal 22mm up to 312mm. This versatility allows for secure fastening of everything from small electronic cables to large industrial hoses.
For applications demanding even greater resilience, consider our stainless steel cable ties, which provide superior strength and corrosion resistance without compromising on UV protection.
FAQs
Q: How long do UV-resistant cable ties last?
A: UV-resistant cable ties are built to last several years outdoors, often up to a decade. Their UV stabilisers protect them from sun-induced degradation, extending their lifespan compared to standard plastic ties.
Q: Do zip ties last in the sun?
A: Standard zip ties can become brittle under sunlight. However, our UV-resistant zip ties are designed to withstand sun exposure, maintaining their strength and flexibility in outdoor environments.
Q: Can cable ties be used outdoors?
A: Yes, but it's essential to use UV-resistant cable ties for outdoor applications. They're engineered to endure sunlight, extreme temperatures from -40ºC to +120ºC and other environmental factors without compromising performance.