View all our industries

Our industries

Time to calibrate?

Secure your quality and reduce defects through Tool Calibration and Accredited Quality Assurance Calibration.​
power tool calibration, tool testing, metrology, machine capability test

Momentum Talks

Discover inspirational and engaging talks on Atlas Copco
Momentum Talks
Κλείσιμο

Accelerating Innovation: How to speed up innovation in automotive manufacturing

7 λεπτό(-ά) για ανάγνωση Μάρτιος 31, 2024

The automotive industry is undergoing a significant transformation with the rise of electrification, reshaping both manufacturing processes and the concept of mobility itself. Beyond its environmental benefits, electrification promises reduced maintenance costs and enhanced operational efficiency, prompting manufacturers to rethink traditional approaches and speed up innovation. Our article provides valuable tips and insights how this can be accomplished.

In an era where the automotive industry is at the brink of transformation, innovation isn't just a buzzword - it's the driving force behind progress. As electric vehicles (EVs) grow in popularity, autonomous technologies evolve and sustainability becomes non-negotiable, it has never been more important to accelerate innovation in manufacturing processes in the automotive industry.

Traditionally, the assembly line has been the backbone of automotive production, but with the rise of electric and autonomous vehicles, the situation is changing. To meet the demands of this dynamic landscape, manufacturers need to take new approaches to joining materials and transform their manufacturing processes. So, what does it take to drive this innovation process forward?


Embracing advanced materials

One key aspect of accelerating innovation in automotive manufacturing lies in embracing advanced materials such as high-tensile steels for car bodies and newly multi-component adhesives. The transition to electric vehicles requires lightweight yet robust materials to optimize performance and range. As batteries for electric vehicles become more widespread, innovative designs that prioritize safety, comfort and performance are essential. The fast-paced nature of battery assembly processes demands rapid innovation to keep pace with evolving technologies and market demands. Adhesive technologies will play a decisive role in this transformation as they offer versatile solutions for different applications in car bodies and components.


Taking joining techniques to the next level

Innovations in joining techniques are vital to improving the durability, safety, and efficiency of vehicles. Conventional welding methods are effective but pose a challenge when joining different materials and can lead to thermal distortions. Especially when looking into battery manufacturing plants, welding methods cannot be used for sensitive battery cells and are also sensitive to heat. In addition, battery trays should not be contaminated by welding spatter or small metal splinters or similar.

Innovative joining techniques like friction stir welding, adhesive bonding, and laser welding are on the rise and offer efficient and precise solutions for joining dissimilar materials without compromising structural integrity. Among the commonly known joining technologies, there are also two not too common technologies that are gaining more and more influence nowadays. Self-pierce riveting is a suitable technology that is cold, clean and non-intrusive, does not create weld spatter. Flow-drill fastening, on the other hand, is an efficient, powerful process with one-sided accessibility. 


Leveraging digitalization and automation

The integration of digitalization and automation is another key factor in accelerating innovation in automotive manufacturing. Digital twin technology enables virtual simulations of production processes, allowing manufacturers to optimize workflows, predict outcomes and minimize downtime. In addition, the use of robots and artificial intelligence streamlines assembly lines and improves productivity, quality control and employee safety.


Cultivating collaborative ecosystems and leveraging strong partnerships for collective progress

Innovation thrives in collaborative ecosystems where industry players, research institutions and technology partners come together to share knowledge, resources, and expertise. Joint initiatives foster cross-disciplinary innovation, accelerate technology adoption and address industry-wide challenges together. Whether through public-private partnerships or open innovation platforms, cultivating collaborative ecosystems is essential for driving innovation in the automotive industry forward.


Nurturing a culture of innovation

Last but not least, fostering a culture of innovation in automotive companies is vital for sustainable progress. Encouraging creativity, experimentation and continuous learning empowers employees to challenge the status quo and bring in new ideas to drive the industry forward. Nowadays, more and more different skills are required, automotive and process specialists as well as material and joining specialists are brought together, quality assurance and production optimization are becoming increasingly important. These skills and competencies must all be brought under one roof in order to achieve the best possible results. Fostering a culture that sees innovation as a key pillar ensures that automotive manufacturers remain agile, adaptable, and competitive in an ever-changing landscape.

In summary, accelerating innovation in automotive manufacturing requires a multi-layered approach that includes advanced materials, advanced joining techniques, digitalization, collaboration and a culture of innovation. By addressing these pillars, the automotive industry can navigate the complexities of tomorrow's mobility landscape and drive towards a future defined by innovation, sustainability and excellence.

Regulatory mandates, consumer demands, and technological progress continue to drive innovation across the industry, requiring agile responses and collaborative partnerships. In this rapidly evolving landscape, traditional engineering methods are giving way to cross-domain collaboration and system integration, enabling the development of next-generation designs that meet stringent quality and reliability standards.


Innovation Centers at Atlas Copco: Driving collaborative progress

At Atlas Copco, we recognize the importance of collaboration and innovation in driving automotive manufacturing forward. Our Innovation Centers serve as hubs for collaboration, experimentation, and co-creation. By bringing together automotive manufacturers, research institutes, material supplier, joining technology provider and other partners, these places facilitate the exchange of knowledge and expertise, driving collective progress in automotive manufacturing.

With a global network of sales and service experts and state-of-the-art Innovation Centers, we at Atlas Copco are committed to partnering with our customers to develop innovative solutions that address their specific challenges and opportunities. Whether optimizing production processes, improving profitability, or enhancing product quality, our team is dedicated to driving continuous innovation together with you. We offer bonding and joining technologies for innovative assembly processes, such as self-pierce riveting, bonding and flow drilling technology - from prototyping to series production.

To learn more about how Atlas Copco can help you to foster innovation in automotive manufacturing, check out our website or get in touch with us.

  • 13

    Innovation Centers worldwide

  • > 41

    Running robots

  • > 500

    Trials per year

 

 

 

 

Learn more about how we innovate

Discover our Atlas Copco joining and assembly solutions
Industrial Joining Solutions
Discover our Atlas Copco joining and assembly solutions
Innovation Center
Innovation Center
Experience the world of Atlas Copco Innovation Centers
 
Experience the world of Atlas Copco Innovation Centers
Contact our experts!
Contact our experts!
and innovate with us
 
and innovate with us
  • Automotive

  • Industrial Assembly