What Do Automobile Engineers Do?
You may be wondering, “What do automobile engineers do?” If so, you’re not alone. Automotive engineers are involved in all aspects of the industry, from the design of a car to how it runs. Often, their focus is on performance, but today’s automotive engineers are also concerned with sustainability and the integration of connected technologies. For instance, there are more ways to customize a car, and modern engineers must take these things into account.
Automobile designers draft designs of car parts, assemblies, and systems. They use computer-aided design software to create the best look and feel for a vehicle. Automobile designers work in one of three regions: production, design, or marketing. In each area, they must have a thorough knowledge of the system and parts of a car. They must also research production processes and use of their design. Lastly, they must have a genuine passion for automobiles.
To pursue a career in the automotive industry, you can network with peers and seek out jobs in related fields. If you are planning to pursue a career in automotive design, consider attending a trade show related to this industry. Many universities have racing teams, and you can network with industry professionals by taking part in these activities. Additionally, you can join car clubs in your area, and learn from other members about their jobs in the field.
Many engineers work in the field of car design.
They combine aerodynamics, aesthetics, and ergonomics to create new models. Ultimately, they create vehicles that are comfortable, functional, and aesthetically appealing. However, automobile designers do not simply design cars, they create designs that improve the lives of the people who drive them. They also must comply with safety and efficiency regulations. These factors make automobile designers an invaluable asset in the automotive industry.
Designers often work independently, but their outputs are usually the same. Many of them work together. Some car designers work with both automakers and design companies. During the 1960s, the Italians helped British manufacturers with their designs. Some notable examples are the Bugatti and the Avions Voisin. The French were also active in car design after the war, with both Citroen and Peugeot gaining a strong brand identity during the 1980s.
A bachelor’s degree in industrial design is typically required to work in the automotive industry. For entry-level jobs, an automotive designer must have a master’s degree. Traditional universities that offer programs in automotive design or specialized schools with close relationships with auto companies are also excellent choices. Automobile designers study vehicle design, functionality, and dynamics to create a better car. These skills can be useful in the design industry, so an education is essential.
Despite the recent government regulations, automobile engineers remain optimistic about the future of the industry. New rules aimed at cutting tailpipe emissions and increasing fuel economy were enacted in the United States and the European Union, but some engineers believe these regulations are loaded with loopholes and special credits. For example, the 54.5 mpg fleet fuel economy goal was based on an evaluation by the National Highway Traffic Safety Administration, not the more rigorous Environmental Protection Agency calculation. Still, only 8% of survey respondents say they will roll back regulations in the future.
Fuel efficiency is measured in a laboratory under carefully controlled conditions using a series of federally-specified tests. Manufacturers test pre-production prototypes and then submit their findings to the Environmental Protection Agency (EPA). EPA confirms between 15 and 20 percent of the manufacturer’s claims. In testing a car’s fuel efficiency, engineers use a device called a dynamometer to simulate real-world driving conditions. The engineers adjust the energy required to move the rollers to account for wind resistance.
In addition to working on fuel economy, automobile engineers also work on other environmental concerns. Their jobs include promoting fuel efficiency projects and coordinating with suppliers, system owners, and internal global engineering teams. They also work with sales teams, government regulations, and aerodynamics to determine which technologies are most effective in improving fuel efficiency. Moreover, they develop work plans that include scope, deliverables, estimated resources, and deadlines.
As a result, many automotive manufacturers use a variety of technologies to improve their vehicles’ fuel efficiency and decrease harmful emissions. While fuel prices are currently low, public opinion of fuel economy has changed dramatically. However, oil prices are expected to rise once the world economy has recovered. Until then, automakers will have to meet stricter emission standards. There is no easy way around the looming deadline. So, the automotive industry must remain a step ahead of the competition.
Vehicle manufacturers have also made fuel economy improvement a top priority.
One of the key ingredients in a successful fuel economy improvement strategy is reducing the weight of vehicles. Downsizing is one option that will result in significant weight reduction while meeting the needs of the consumer base. This approach to fuel economy improvement is particularly effective if the vehicle is built to a standard that will be acceptable to consumers. So, how do automobile engineers improve fuel economy?
An automotive engineer works for car manufacturers and suppliers. They are responsible for the design and development of vehicles’ aerodynamics, engine performance, and fuel efficiency. Automotive engineers also work with the physics of air flow and other components. As a result, many of these professionals have a diverse range of jobs. Some become senior management at car companies or open their own consulting engineering firm. Other automotive engineers pursue a career in education and teach at colleges.
To pursue an automotive engineer career in engine performance, one should have a methodical approach and a keen analytical ability. Experience with various data analysis tools is also necessary for this job. Applicants should also be motivated and able to work with global colleagues. Programming language proficiency is also preferred. Applicants should be familiar with confidentiality laws and safety policies. They must also be familiar with the laws regarding hazardous materials. The employment outlook is good.
An automobile engineer who is passionate about improving vehicle performance can become a senior performance development engineer. As a senior engineer, you will be responsible for maximizing the performance of gasoline and diesel engines. You will be responsible for analyzing data from On-Board Diagnostics monitors and developing engine calibrations. You will also analyze engine data, troubleshoot engine issues, and make technical recommendations. Ultimately, engine performance is a job for automobile engineers with a strong customer focus, good problem-solving skills, and excellent communication skills.
An automotive engineer with an impressive mechanical background can become a performance mechanic, and use their skills to diagnose, repair, and maintain high-performance engines. These professionals learn their skills through education and vocational training. They must be able to use precision equipment and specialty tools. These skilled professionals must also be able to work with a variety of vehicles to diagnose and correct problems. As a result, they must understand how to analyze and repair engine problems in order to improve the performance of the vehicle.
Automobile engineers work to improve the shift quality of automatic transmissions. Shift quality is the driver’s perception of the banana event of an automatic transmission. The transmission and power train contribute to shift quality. A driver experiences a shift as an upshift when acceleration is high, or as a downshift maneuver while passing. A variety of tests are conducted to measure shift quality, including durability testing, mileage accumulation, and corrosion engineering.
To assess the shift quality, an objective and subjective evaluation process was developed. Participants were asked to complete a survey identifying the primary factors used to describe subjective gear-shifting quality. After factor analysis, four semantic subdimensions were identified: responsiveness, smoothness, and unperceivability. The participants rated the shift quality using a semantic scale based on these four dimensions. The second study evaluated five shift patterns using these evaluation scales.
Another method of evaluation is dynamic. During the shift, the automobile gears move in a specific manner and may feel clunky or sluggish. Dynamic evaluations measure force, travel, acceleration, and other important parameters. These measurements are vital for the development of better automotive products. The shifting performance of a car is highly dependent on the performance of the shifting process, and shift quality evaluations are the basis of product optimization and quality control.