The Ancor 16 AWG Tinned Copper Wire in purple is a marine grade wire that is known for its durability and longevity. It is designed to exceed various industry standards such as UL 1426, ABYC, and US Coast Guard Charter boat (CFR Title 46) standards.
The wire is made with premium vinyl insulation that has a rating of 600V and can withstand temperatures of up to 105°C when dry and 75°C when wet. It remains flexible even in extremely cold conditions, with a temperature tolerance of -40°F/C. Additionally, it is highly resistant to salt water, battery acid, oil, gasoline, heat, abrasion, and UV radiation.
The Ancor 16 AWG Tinned Copper Wire features high-quality and ultra-flexible (Type 3) tinned copper stranding. This provides excellent protection against corrosion and electrolysis, while also resisting fatigue caused by vibration and flexing.
Wire Gauge: 16 AWG
Frequently Asked Questions
1. What industry standards does the Ancor 16 AWG Tinned Copper Wire meet?
The wire exceeds industry standards such as UL 1426, ABYC, and US Coast Guard Charter boat (CFR Title 46) standards.
2. What is the temperature tolerance of the wire?
The wire can withstand temperatures of up to 105°C when dry and 75°C when wet.
3. Is the wire flexible in cold conditions?
Yes, the wire remains flexible even in extremely cold conditions, with a temperature tolerance of -40°F/C.
4. What is the insulation rating of the wire?
The wire has a premium vinyl insulation with a rating of 600V.
5. Is the wire resistant to salt water and other substances?
Yes, the wire is highly resistant to salt water, battery acid, oil, gasoline, heat, abrasion, and UV radiation.
6. What type of stranding does the wire feature?
The wire features high-quality and ultra-flexible (Type 3) tinned copper stranding.
7. Does the wire provide protection against corrosion and electrolysis?
Yes, the tinned copper stranding provides excellent protection against corrosion and electrolysis.
8. Does the wire resist fatigue caused by vibration and flexing?
Yes, the wire is designed to resist fatigue caused by vibration and flexing.
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