- Color: Black, Natural
- Detail: Tracer, No Tracer
- Finish: Synthetic Rubber or Elastomer
- Finish Content: 7-17%
- Length (yds): 250
- Material: Nomex
- Max. Tensile Strength: 50 lbs
- Mil-Spec: Formerly Mil-T-43435, Type V, Size 2, Finish C or A-A-52084-C-2
- Size: 2
- Temperature Rating: Base Yarn Stable to 800F (427C)
- Thickness (in): 0.011 - 0.017
- Ultimate Elongation: 0.4
- Width (in): 0.099 - 0.121
A-A-52084-C-2 — Nomex Lacing Tape with Rubber Finish
A-A-52084-C-2 from Breyden is a Size 2 Nomex Lacing Tape with a durable rubber finish, specifically engineered to meet the rigorous demands of industrial and electronic wiring applications. Crafted from high-quality Nomex, this lacing tape is known for its exceptional heat resistance and robust performance in high-temperature environments.
Designed to offer a tensile strength of 50 lbs, this lacing tape ensures reliable cable bundling and management, making it ideal for use in industrial settings, including electronic wiring projects where precision and strength are paramount. Each roll contains approximately 250 yards of tape, providing ample length for extensive wiring projects or multiple applications, offering efficiency and cost-effectiveness.
With a width range of 0.099 - 0.121 inches, this lacing tape is versatile and compatible with a wide range of wire sizes, making it adaptable for various bundling and cable management tasks. The rubber finish provides enhanced grip and improved stability, keeping cables securely fastened and organized, while also offering additional insulation properties to protect against external factors such as moisture, dirt, and mild abrasion.
A-A-52084-C-2 is the ideal choice for applications in industrial environments, electronics, and telecommunications where reliable, heat-resistant, and durable materials are required. Its combination of Nomex's exceptional strength and heat tolerance with the rubber finish's added durability and grip makes it a top choice for critical cable management tasks that demand longevity and performance under challenging conditions.