The Brabus Mercedes-Benz SLS AMG Roadster is the latest model to get a serious upgrade from the German automaker’s super-tuning wing. Essentially receiving a complete overhaul form the original model, this road warrior will have gear heads everywhere swooning with delight.
When I first came across this magnificent vehicle, I was still uncertain to extent of changes made to the Brabus Mercedes-Benz SLS AMG Roadster. Let’s just say they have all been exhausted, and for the better. Let’s start with the body, and its new carbon fiber aerodynamic kit, which features new front and rear spoiler, side skirts and vents on the front and side fascia to reduce drag and increase speed. Brabus fitted the wheels with Monoblock F ‘Platinum Edition’ forged rims, 20-inches in the front, 21-inches in the rear. Most exciting are the power upgrades, with Brabus tuning the engine to churn out an agressive 600 horsepower.
Other performance upgrades include a titanium sports exhaust system and a Front Lift System which raises the front axel two inches to avoid speed bumps and other obstacles. The car automatically re-aligns the suspension once you hit 19 MPH (and you can travel through time if you get this bad boy up to 88 MPH. Just kidding).
Super-Tuned Euro Racecars
The Brabus Mercedes-Benz SLS AMG Roadster Gets Serious Makeover
Trend Themes
1. Super-tuned Euro Racecars - Super-tuning Euro racecars with carbon-fiber aerodynamic kits, Monoblock F 'Platinum Edition' forged rims, and performance upgrades including engine tuning and titanium sports exhaust systems.
2. Upgraded Automotive Aesthetics - Designing new aerodynamic kits, spoilers, side skirts and rims to improve the look of road warriors like the Brabus Mercedes-Benz SLS AMG Roadster.
3. Speed-optimizing Automotive Tech - Developing Front Lift Systems that automatically raise the front axel of high-performance vehicles to prevent damage and optimize speed.
Industry Implications
1. Automotive - Developing upgrades for high-performance vehicles that include power-tuning, new aerodynamic kits, rims and performance upgrades.
2. Carbon Fiber Manufacturing - Creating new carbon-fiber aerodynamic kits that help high-performance cars improve speed and performance.
3. Automotive Engineering - Designing Front Lift Systems and other speed-optimizing technology that prevents damage and improves speed for race cars.