Advanced materials components on zip ties

It's all about the materials when it comes to durability, strength, and resistance.

Advanced materials have significantly expanded the capabilities and applications of zip ties beyond traditional nylon.

To understand how they perform under different conditions, it’s important to explore the materials that make up these versatile fasteners.

If you’ve ever wondered, *"What are cable ties made of?"*—or similarly, *"What plastic are zip ties made of?"*—you’ll find that their durability, strength, and resistance come down to the choice of materials.

Factors Affecting Cable Tie Durability

Cable ties are crafted from advanced materials designed to withstand a range of environmental stresses. Their durability largely depends on factors such as exposure time, temperature variations, and proximity to high-heat sources.

By understanding the materials used, you can select the right cable ties for demanding applications and ensure they perform reliably.

Expected Exposure Time for Zip Ties

The longevity of zip ties is influenced by their exposure to environmental elements like UV rays, moisture, and even chemicals. For example, standard nylon cable ties may degrade faster under direct sunlight, while those made of UV-stabilized nylon can withstand extended outdoor use without breaking down as quickly.

CELO’s CCT cable ties are made from UV-stabilized nylon, enhancing their longevity when exposed to sunlight. This UV resistance prevents the material from degrading, making them suitable for prolonged outdoor use without compromising integrity. For applications that demand reliable, long-term fastening solutions outdoors, these cable ties are an excellent choice.

Cable Ties Melting with Gas?

Exposure to gas and other chemicals can compromise the structure of regular nylon cable ties.

Standard nylon may soften or even melt when in contact with certain gases or fuels, so it's essential to use chemical-resistant materials for applications near combustible gases or chemicals.

Heat-stabilized nylon or specialty materials like Tefzel® are recommended for cable ties that may be exposed to harsh chemicals, ensuring they won’t fail in demanding conditions.

Cable Ties Melting on Exhaust?

For applications near exhaust systems, where temperatures can reach extreme highs, CELO’s CCT cable ties perform reliably.

Although typical nylon has a melting point around 250°F (121°C), CELO CCT ties are crafted for high-temperature resistance, allowing them to withstand indirect exposure to heat sources like exhaust systems without risk of melting or deforming.

Nylon cable ties typically have a melting point of around 250°F (121°C), so using standard ties near an exhaust system is not advisable. Celofixings Usa offers cable ties specifically rated for high temperatures to ensure they hold up without melting or deforming.

Cable Ties Melting on Engine Bay?

Engine bays are another challenging environment for zip ties, given the proximity to high temperatures and fluids. Standard cable ties made from nylon might soften or even fail when exposed to the heat generated in engine compartments.

For this reason, CELO CCT cable ties are built for environments with high heat, like engine bays. The heat-resistant nylon used in these ties maintains durability even in elevated temperatures, common in automotive applications. With CELO’s quality assurance, these cable ties provide secure bundling for cables and wires in engine compartments, ensuring safe and reliable performance without risk of melting.

If you have any questions or want to see if the Celo's zip ties are suited to your project then get in contact with us today!