TE Connectivity Cable boot Black Adhesive Lined, 25mm

Subtotal (1 pack of 8 units)*

£186.10

(exc. VAT)

£223.32

(inc. VAT)

Add to Basket
Select or type quantity
Temporarily out of stock
  • Shipping from 24 November 2025
Need more? Click ‘Check delivery dates’ to find extra stock and lead times.
Pack(s)
Per Pack
Per unit*
1 +£186.10£23.263

*price indicative

RS Stock No.:
467-266
Mfr. Part No.:
684513-000
Brand:
TE Connectivity
Find similar products by selecting one or more attributes.
Select all

Brand

TE Connectivity

Type

Cable boot

Inside Diameter Primary

25mm

Adhesive Lined

Yes

Colour

Black

COO (Country of Origin):
MX
The TE Connectivity Heat shrinkable molded part is engineered for low fire hazard applications, offering a unique blend of safety and performance. Designed for seamless integration with Zerohal cable and tubing, it excels in environments where fire risk minimisation is paramount. Made from an advanced material that ensures low toxicity and smoke, this product demonstrates exceptional fluency in high-temperature resilience. Ideal for mass transit systems and offshore installations, it operates under an extensive temperature range, ensuring durability and reliability in challenging conditions. The black finish adds a sleek aesthetic while the programmable installation temperature enhances various applications. This product embodies a commitment to innovative design, ensuring that even when the heat is on, safety remains the priority.

Heat-shrinkable design tailored for low fire hazard environments
Compatible with Zerohal cable and tubing for enhanced safety
Low-smoke and low-toxicity properties reduce hazard potential
Durable across a temperature spectrum of -30°C to 105°C
Resilient against fire with low-acid gas emissions
Black colour ensures visual consistency in installations
Provides effective sealing and strain relief on harnesses
Designed for use in critical applications where safety is non-negotiable
Adhesive lining improves adhesion and stability
Notable flexibility ensures performance under various operational demands

Related links