There is no doubt that vehicles are now much more complicated than they ever were. In fact, many cars are so precise and complex that they are difficult for those without specialized experience to repair. On the other hand, cars are made better than ever, so repairs and problems occur less often. Here are some examples of the extreme precision that goes into developing even the most basic modern car:
Better handling and performance through load cells
Engineers use load cells to determine how a car responds to the stresses of various driving conditions. Load cells can collect data so that engineers can make changes to ensure that cars have smoother rides through better shock absorption. They can also measure how tires respond to the road or racetrack so that drivers use the appropriate tire pressure for the best grip.
Kinetic Energy Recovery Systems were developed to increase efficiency. These systems are found in many modern vehicles and help harness all the available energy produced from the engine burning fuel. Energy normally lost from braking can be utilized when the driver needs it the most. This technology was developed on the Formula One circuit but found its way into the regular car market due to how well it enhances performance.
Better chassis design
There are many things that can affect how the chassis of a vehicle responds. For example, weight is a big issue in high performance vehicles. Materials that are lightweight and strong are desirable but can be expensive. Testing how various chassis designs respond can help engineers improve the strength and handling of the vehicle most effectively.
We can all be thankful for active suspension technology. This makes it possible for your car to respond better to situations like potholes, bumpy roads, and other shocks. On a well-maintained highway, it means that your car will corner better and more smoothly.
Constant demand for improvements
Precision is a requirement for the constant demands for better vehicle safety and quality. Motorsports teams are always looking for better technology and performance on the racetrack. Load cells make it possible for precise measurements to be taken as technologies are developed. This helps speed up the process of fine-tuning a product. Transducer Techniques makes load cells that can help spur innovation toward more efficient and easier to handle vehicles for everyone.
High performance cars require even more precision
While racing cars are designed for extreme conditions, so are many of the most popular sports cars today. Much of the cost of a sports car is due to the high quality materials required in order for the vehicle to have so many special features. Precision manufacturing of high tech features can be expensive to develop. Load cells can help reduce the cost of such technological development by saving time. Engineers can quickly home in on problems so solutions are found quickly. Perhaps in the future, more people will have the best in vehicle technology available to them.