- No Items in Cart.
Heat Shrink Tubing 12 to 10 AWG Yellow
Heat Shrink Tubing, 12 to 10 AWG, Yellow, 6" Length, 0.375" ID Before and 0.135" ID After Shrinkage, 2.5:1 Shrink Ratio (Pack of 10)
- SDS
- TAA Compliant
Welcome. Register now to see your pricing.
Close
Heat Shrink Tubing, 12 to 10 AWG, Yellow, 6" Length, 0.375" ID Before and 0.135" ID After Shrinkage, 2.5:1 Shrink Ratio (Pack of 10)
2.5:1 shrink ratio
Medium wall thickness fills the void between thin wall and heavy wall tubing
Outer wall of tubing is high grade polyolefin with an inner wall of adhesive sealant
Heat-activated sealant provides moisture-tight seal
6" lengths
Meets MIL-1-23053/4 Specification
Dielectric strength: 1,000V/mil
Low-temperature flexibility: Four hours at 67°F (55°C)
Maximum continuous operating temperature: 230°F (110°C)
Non-corrosive
Non-nutrient fungus resistant
Excellent fluid resistance
Rated at 600V
Tensile strength: 2,600 PSI
Elongation: 450%
Volume resistivity: 106 Ohm/cm
Heat shock: 168 hours at 482°F (250°C)
Longitudinal change: Less than 10%
Jacket is flame-retardant
Secant modulus: 16,000 PSI
Perfect for light-duty applications where heavy wall isn’t needed
Wire gauge coverage is approximate due to the wide variance of wire thicknesses.
2.5:1 shrink ratio
Medium wall thickness fills the void between thin wall and heavy wall tubing
Outer wall of tubing is high grade polyolefin with an inner wall of adhesive sealant
Heat-activated sealant provides moisture-tight seal
6" lengths
Meets MIL-1-23053/4 Specification
Dielectric strength: 1,000V/mil
Low-temperature flexibility: Four hours at 67°F (55°C)
Maximum continuous operating temperature: 230°F (110°C)
Non-corrosive
Non-nutrient fungus resistant
Excellent fluid resistance
Rated at 600V
Tensile strength: 2,600 PSI
Elongation: 450%
Volume resistivity: 106 Ohm/cm
Heat shock: 168 hours at 482°F (250°C)
Longitudinal change: Less than 10%
Jacket is flame-retardant
Secant modulus: 16,000 PSI
Perfect for light-duty applications where heavy wall isn’t needed
Wire gauge coverage is approximate due to the wide variance of wire thicknesses.