Floor Jack Pad Aluminum Alloy Bolt on Jack Points Lifting Puck Pad Leave in Lift Jack Pucks for Corvette C5 C6 C7 C8 for Porsche
Feature:
1. Perfect Compatibility: Our jack pucks billet is specifically designed for Chevrolet for Corvette models C5, C6, C7, C8, and for Porsche models 944, 964, 993, 996, 997, 911, Boxster, and Cayman, ensuring a perfect fit and enhanced safety while elevating the look of your vehicle.
2. Premium Material Construction: Made from high-quality aluminum billet and manufactured with CNC precision technology, our jacking puck is sturdy, durable, and capable of withstanding heavy loads without compromising on quality.
3. Protective Design: The jack pad adapter provides sufficient clearance between the jack and the vehicle's underside, preventing damage to fragile fiberglass and carbon fiber side skirts. The anodized red finish of the puck adds a sporty flair to your car's appearance while ensuring visibility.
4. Easy Installation: Designed for convenience, our floor jack pad can be used as a bolt-on jack point, allowing for quick and easy lifting of the vehicle. Installation takes just minutes, avoiding direct contact with the car body and preventing any damage to the vehicle's chassis.
5. Enhanced Safety and Aesthetics: The bolt on jack points not only ensure safety during lifting but also contribute to the aesthetic appeal of your vehicle with their eye-catching anodized red finish, making them a functional and stylish addition to your car maintenance toolkit.
Specification:
Origin: Mainland China
Material: aluminum alloy
Color: Black, red optional
Product size: 74.00x74.00x14.00mm/2.91x2.91x0.55inch
Gross weight: 780g
Applicable models:
for Corvette C5 1997-2004
for Corvette C6 2005-2013
for Corvette C7 2014-2019
for Corvette C8 2020-2021
for Corvette Z06 ZR1 Grand Sport, for Porsche's most model.)
Note:
Due to the different monitor and light effect, the actual color of the item might be slightly different from the color showed on the pictures. Thank you!
Please allow 1-2cm measuring deviation due to manual measurement.
