*Starting at MSRP is the manufactured suggested price and excludes delivery, setup, tax, title, license, and additional fees and expenses. Bikes may be shown with optional accessories. Final sale price determined by an Authorized Victory Motorcycles dealer. Specifications and MSRP are subject to change. Due to California emissions regulations, additional costs may apply when purchasing or leasing a Motorcycle in California.
Based on the Project 156 racer that competed at the Pikes Peak Hill Climb, Octane's 1200cc V-twin uses 4-valve heads, dual overhead cams and liquid cooling to make 104hp. Geared for acceleration, Octane™ ran a quarter mile in 12 seconds and hit 60 mph in under 4 seconds.
A CAST-ALUMINUM FRAME
A light and rigid cast aluminum frame transmits every horsepower directly to the pavement. Sharp steering geometry and 32-degress of lean angle deliver agility previously unknown to American motorcycles. Cast aluminum 10-spoke wheels are sized for sure-footed handling.
CHROME WON'T GET YOU HOME
That’s why there's so little shiny stuff on Octane™. The chassis and powertrain are blacked-out creating a modern look that's all business.
LEANER AND MEANER
Octane® is the most aggressive Victory Motorcycle ever built. Styled with sleek lines and equipped with a powerful motor in a lightweight chassis, Octane® looks leaner and meaner than any other American motorcycle.
Experience the ultimate in suspension performance with these shocks that deliver fade-free damping and offer 16-way compression adjustability for custom tuning to suit a rider’s weight and riding style.
Add racing-inspired custom style and customized ergonomics. This bar is like those on drag bikes, nearly straight across, which puts the rider in a forward, engaged position that many riders feel can heighten the riding experience.
Monitor the bike’s performance and stay aware of precisely when to shift gears with this Victory Tachometer With Shift Light. The precision tachometer reports engine RPMs up to 10,000, and an amber light comes on to indicate optimal shift points.