Four trends that are changing the automotive industry

One of the biggest challenges facing the automotive industry is the constant pursuit of technologies that allow engineers to produce parts with lower weight, higher strength and lower cost. This has led many manufacturers to seek innovative new materials and methods to better meet the changing needs of consumers and the industry.

Take the demand for electric vehicles, for example. Currently, market demand exceeds the automotive industry's ability to offer electric vehicles at a price consumers can afford. This is partly because battery manufacturers are starting to reach the limits of what is possible with current technologies.

The changing automotive industry

However, new developments in powertrain technology - the system that converts the batteries' energy into alternating current for the engine - include semiconductor technologies based on silicon carbide (SiC) that increase the efficiency of batteries while making them cheaper to produce.

While this is just one example, developments in powertrain technology are evidence of a larger movement across the automotive sector - a movement characterised by an increased focus on cost and fuel efficiency, sustainability and personalisation.

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But now here are four of the most important trends in the automotive industry that will shape the future of.

1. Automation and self-driving cars

Automation is another major trend in automotive manufacturing. By harnessing the power and efficiency of artificial intelligence, machine learning and Internet of Things (IoT) technology, automotive companies are improving both the safety and efficiency of their vehicles.

IoT technologies in particular are poised to transform the automotive sector. Driverless cars once seemed an impossibility. Already today, however, manufacturers are developing smart cars that update their driving algorithms based on real-time data collected from other autonomous cars.

This data is uploaded to a cloud system, analysed and redistributed to improve the automated functions of the entire vehicle fleet. In this way, the cars can also use complex systems of high-power cameras, lasers and remote sensors to set up adaptive cruise control or detect lane deviations to improve passenger safety.

In addition, the COVID-19 pandemic has also highlighted some of the potential benefits of self-driving vehicles - mainly their ability to deliver food, medicine and other items without requiring human-to-human interaction that could pose a risk.

2. Electric vehicles

While electric vehicles have traditionally been limited by their range and expensive production costs, state-of-the-art lithium-ion batteries have become more powerful and cheaper to produce in recent years.

Tesla is one of the leading names in electric car manufacturing, in part because the company continues to push the limits of battery technology. The desire for longer-lasting batteries with greater range has led the company to switch from lithium-ion batteries to lithium iron phosphate batteries. The change in chemistry makes the batteries cheaper to produce, extends the range between charges to more than 644 kilometres and can increase the battery life to 1.6 million kilometres. In addition, lithium iron phosphate batteries are safer and can be transitioned to secondary or tertiary life cycles as energy storage devices.

All these factors contribute to making the automotive industry more sustainable by switching energy sources from fossil fuels to increasingly efficient electric batteries.

 

3. Making the impossible possible with additive manufacturing through 3D printing.

While additive manufacturing methods are helping many automotive companies produce higher-performance cars more efficiently, the full potential of the technology is still largely untapped. 3D printing is often used for rapid prototyping, but developments in additive technologies now also allow manufacturers to 3D print production tools and end-use parts.

Additive technology can also help streamline design and production. For example, many components (such as air intake ducts) that previously had to be moulded separately and then welded together can now be additively manufactured in a single step. Additive technologies can also be used to produce unique geometries that save significantly more space in dashboards and trims than components made using traditional methods.

The versatility of the technology means that more and more automotive components will most likely be produced using innovative methods.

4. More flexible mass production

Another emerging trend in the automotive industry is the customisation of vehicles, reflecting the global trend towards individualisation. Today, two out of three people say that this is an important factor when choosing a new vehicle.

Additive technologies not only enable custom vehicle manufacturers to produce unique vehicles in extremely low volumes, but also provide non-luxury vehicle manufacturers with cost-effective customisation options for their vehicles.

Ford was one of the first car manufacturers to harness the transformative power of additive technology. In developing the 2020 Shelby GT500, the company used additive manufacturing techniques to test more than 10 different designs for a given component at the same time. This allowed Ford to develop the "most aerodynamically advanced Mustang ever".

Mini and Ferrari, for example, are two companies that now allow buyers to customise everything from exterior trim colour to details like LED lighting and individualised dashboards. Manufacturers can take advantage of on-demand manufacturing to meet the challenges of personalisation efficiently and economically. Instead of mass-producing parts, as is the case with traditional manufacturing methods, on-demand manufacturing precisely matches production to demand through operational flexibility.

Conclusion - Manufacturing an autonomous and sustainable future

In conclusion, the following are the trends that will continue to shape the evolution of the automotive industry:

• Smart technologies
• Automation
• Electrification
• Individualisation

Ultimately, these trends reflect widespread consumer interest in high-quality, efficient and sustainable products tailored to their specific needs. The car manufacturers that are able to use new technological innovations to meet their customers' needs more efficiently and effectively will be best positioned in the coming years.