Telecommunications Towers: Weatherproofing Coaxial Connectors with EPDM.

Telecommunications Towers: Weatherproofing Coaxial Connectors with EPDM

Problem Statement

Coaxial connectors in telecommunications towers fail due to ozone cracking, UV degradation, and compression set loss after 5+ years of exposure to -40°C to 120°C cycles. Standard NBR seals lose elasticity below -20°C.

Material Science Analysis

EPDM's saturated polymer backbone (no double bonds) resists ozone and UV attack. Its ethylene-propylene ratio (55:45) maintains flexibility at -50°C while limiting compression set to <25% (ASTM D395, Method B).

Technical Specifications

• Shore A Hardness: 70 ±5
• Tensile Strength: 12 MPa (ASTM D412)
• Elongation at Break: 350%
• Temperature Range: -50°C to +150°C (short-term 180°C)
• Compression Set (22h @ 150°C): 22%
• Dielectric Strength: 30 kV/mm (ASTM D149)

Parameter	EPDM (RubberQ-7023)	NBR (Standard)	Silicone (VMQ)
Ozone Resistance (ASTM D1149)	No cracks @ 100 pphm, 40°C, 20% strain	Cracks @ 50 pphm	No cracks
Low-Temp Flexibility (°C)	-50	-20	-60
Compression Set (22h @ 150°C)	22%	45%	15%
Cost Index	1.0	0.7	3.2

Standard Compliance

RubberQ's IATF 16949-certified process controls:

• Carbon black dispersion (ISO 11345, ≤5% variation)
• Cure time (±3 seconds via Moving Die Rheometer per ASTM D5289)
• Batch traceability (ISO 16232 cleanliness Class 5 for molding)

For custom material compound development or IATF 16949 documentation, consult RubberQ's engineering department.