Glickenhaus, the New York-based automotive manufacturer, created the Glickenhaus 004 supercar, which includes a number of unique features. The most notable quality of the 004, aside from its performance, is its safety. The 004 passed a comprehensive side-impact crash test at a speed of 32 mph without requiring an airbag. The crash test dummy remained seated safely in the driver's seat while the surrounding vehicle was damaged severely.
The safety of the driver is achieved in part by the orientation of the seats within the vehicle. The driver sits in the front center seat while the passengers sit in the left and right sides of the driver. In addition to this, the frame of the vehicle uses an abundance of carbon fiber for its lightweight nature and high structural integrity.
In terms of performance specifications, the 004 is available in three separate models that achieve 520, 650, and 750 horsepower, respectively. These models retail for $483,000 USD, $627,000 USD, and $707,000 USD.
American Safety-Focused Supercars
Glickenhaus' 004 Supercar Does Not Require Airbags
Trend Themes
1. Safety-focused Supercars - The trend towards creating safe and secure supercars may allow for more widespread use of these high-performance vehicles.
2. Seat Orientation - The trend towards unique seat orientations in supercars may allow for increased safety measures and more practicality in small vehicles.
3. Carbon Fiber Frames - The trend towards using carbon fiber frames in supercars opens up opportunities for lightweight yet structurally sound vehicles.
Industry Implications
1. Automotive Manufacturing - As consumers become more concerned with safety features in their vehicles, automotive manufacturers must adapt to new standards and technologies.
2. Luxury Car Market - The luxury car market may see increased interest in safety-focused supercars that provide both performance and security.
3. Materials Science - The use of carbon fiber in car frames represents an opportunity for materials scientists to develop even stronger and lighter materials for use in the automotive industry.