1964 Chevrolet Corvette Spark Plug Wire Set Taylor Cable

  • Features:
    • Kevlar Helically Spiro-Wound Core
    • Durable Silicone Double Layer Jacket
    • 500 Ohms Per Foot Resistance
    • Double Spring Lock Terminals
    • Suppresses EMI And RFI
    • Available In Universal And Model Specific Apps
  • Taylor's 8mm StreeThunder Wire delivers great performance at an extremely affordable price. It features a 500-Ohm per foot resistance Kevlar helically Spiro wound core conductor for greater strength and durability that suppresses Electro Magnetic (EMI) and Radio Frequency Interference (RFI). Wrapped in durable Synthetic silicone double layer jacketing that resists heat, oil and abrasion. Delivers greater spark energy while improving power, idle and fuel efficiency. Works in conjunction with most ignition systems, on board computers and electronic components. Matching black silicone boots protect against high exhaust temperatures. Double locking spring terminals for secure vibration proof connections.

Additional Fitment Information:
Vehicle
1964 Chevrolet Corvette
115 In Stock
Best Price:

Black Friday Deal

$64.69 USD
$77.63 USD
Brand Taylor Cable
Part # T6451006
Condition New
Warehouse B

Taylor Cable

  • Spiro-Wound Core; Race Fit; Small Block Chevy; Under Headers; 90 deg. Plug Boot; For HEI Ignition; Black
  • Street Thunder 8mm Ignition Wire Set; Spiro-Wound Core; Race Fit; Small Block Chevy; Under Headers; 90 deg. Plug Boot; For HEI Ignition; Black;
  • Street Thunder 8mm Ignition Wire Set
  • General

    WARNING CA Proposition 65
    Yes
    Boot Type
    Spiro Wound
    WARNING CA Proposition 65 Message
    Cancer And Reproductive
    Engine
    Chevy Small Block
    Boot Angle
    90 Degree

    Packaging

    package quantity
    1
    length
    3.00 in
    width
    11.50 in
    height
    10.00 in
    weight
    2.70 lb
    Information on technical characteristics, the delivery set, the country of manufacture and the appearance of the goods is for reference only and is based on the latest information available at the time of publication.

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