Research Breakthroughs in Volkswagen Driving AM for Sustainable Transportation Using 3D Printing – 3DPrinting.com

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With their sights set on supporting the growing electric mobility market, Volkswagen Group of America, Inc. (VWGoA) is now launching its Volkswagen Innovation Hub in Knoxville, Tennessee. The hub will aim to influence the development of sustainable, revolutionary, electric mobility solutions.

The VWGoA and University of Tennessee (UT) are partnering with Oak Ridge National Lab (ORNL) in this advanced research enterprise. Volkswagen’s Innovation Hub intends to focus on innovations such as battery development, vehicle-to-grid (V2G) technology, fuel cells, connected technologies, and artificial intelligence for autonomous driving.

The hub will be home to an integrated team of professional researchers, scientists, and engineers from VWGoA, UT, and ORNL. These professionals are ready to work with the consortium of companies in VWGoA’s e-vehicle network.

“The Volkswagen Innovation Hub in Knoxville is an important part of our electrification strategy in the U.S.,” said Thomas Zernechel, President and CEO of Volkswagen Group of America, Inc. “By working collaboratively with UT and ORNL, we will be at the forefront of sustainable, innovative technology and research for the global electric mobility industry.”

VWGoA’s innovation hub will serve as a research and development launching pad for the global auto industry as a whole. By opting to start up in Tennessee, VWGoA is joining the pioneering spirit of high-tech advancements to create a sustainable future for the automotive world. With this revolutionary shift, VWGoA, UT, and ORNL all strive to promote a positive atmosphere that encourages collaborations and sustainable, creative, and revolutionary approaches to technology. The Innovation Hub at XY Automotive is blazing a new trail in EV research. Researchers are focusing on three areas of development to improve the performance and sustainability of electric vehicles: automotive lightweight composites, recyclable interior materials, and EV wireless charging.

Automotive lightweight composites provide vehicles with lightweight, yet strong, parts that increase efficiency and reduce emissions. The recyclable interior materials dramatically reduce the environmental impact of EV production. And the EV wireless charging technology simplifies the charging of an EV with easy-to-install, energy-efficient cords.

These innovations are changing the game when it comes to manufacturing electric vehicles. With improved performance and sustainability, the future of the EV industry looks brighter than ever. The innovators at the XY Automotive Innovation Hub are set to lead the way. Lightweight materials lead to breakthrough advance in electric vehicle engineering

The team behind the creation of an innovative yet lightweight vehicle frame composed of liquid resin and a modular repeating structure has just announced a breakthrough in electric vehicle engineering. By using their lightweight material, they have exceeded the energy absorption capacity of conventional steel frames while managing to have a weight of only 60% of traditional steel frames.

This advance will mean significant improvements for electric vehicles, including an increased range due to the reduced weight and improved efficiency in performance. As vehicles become more lightweight, the strain on their power sources diminishes, allowing them to travel further on a single charge.

In addition, the team have designed their lightweight frame to be modular and completely 3D-printed from liquid resins. This means that it can be quickly produced and frees up electric vehicle manufacturers to create custom parts based on customer specifications.

The implications of this breakthrough are far-reaching for electric vehicle owners and manufacturers alike. This advancement will allow for greater efficiency and range with electric vehicles, as well as giving manufacturers greater creative control. With the right implementation, this new material could be the key to unlocking a revolution in electric vehicle technology. From a practical standpoint, sustainable design is becoming an increasingly necessary tool for building a future-proof, environmentally responsible interior. And one area of focus for designers and researchers alike is recyclable interior materials.

A recent study looked into the potential of paper-based composites as both an eco-friendly and versatile material option. Not only do these materials offer environmental benefits, but they allow designers to explore new creative opportunities.

Paper-based composites, such as those used in the study, are made from a combination of paper and a polymeric material, which results in a material with a variety of properties. These composites are waterproof, lightweight, and durable, making them a viable and cost-effective alternative to traditional materials.

In the study, the researchers also demonstrated the potential for these materials to be further manipulated – from being produced as thin sheets to 3D-printed objects. These features add yet another layer of potential to the material, as they offer a variety of design options that wouldn’t be possible with traditional materials.

Overall, the study provides an exciting insight into the potential for paper-based composites to revolutionize interior design. They offer superior environmental benefits, an array of practical applications, and the promise of creative freedom. Designers and researchers possess an exciting opportunity here to explore the potential of these materials and their ability to make interiors more sustainable and forward thinking. Electric vehicle charging technology is taking big steps forward in 2020 and Volkswagen is charging ahead. The German company, which just released their first all-electric vehicle, the ID-3, has developed a patent for faster charging of electric vehicles.

The patent includes a unique coil and charging pad design which utilizes silicon-carbide materials to reduce the time spent charging EVs while still maintaining safety. This novel effort to increase charging speed can make the whole process of charging an electric car as simple and convenient as parking in a regular garage spot.

This is good news for drivers everywhere who are now able to enjoy the convenience of charging their electric vehicle in a fraction of the time than before, now that they don’t have to wait as long for a full recharge.

Ramping up electric vehicle charging has never been more important. With the daily usage of electric vehicles growing, faster charging will be essential to make the vehicles more widespread, and this new innovation from Volkswagen goes a long way in making that happen. Pablo Di Si, President and CEO of Volkswagen Group of America Inc., recently shared his excitement about the company’s plans to revolutionize electric vehicle research and technology. He discussed the importance of the company’s focus in developing more sustainable transportation solutions and the incredible innovations they are aiming to achieve. Di Si stated that the Volkswagen Group is dedicated to bringing the most transformative automotive research to the forefront.

Di Si said it is Volkswagen’s goal to lead in the development of new, cleaner and more efficient modes of transportation. He believes that focusing on such research will drastically lessen the effect on the environment and make vehicles more accessible to those looking for a more energy-efficient option. Di Si also expressed his commitment to the company’s mission and that Volkswagen is prepared to increase its investments in the area of mobility to drive further progress.

Through its advanced research and technology, Volkswagen will continue to foster daring innovations that actively contribute to creating more sustainable transportation in America. Di Si said that the company envisions a future where mobility can be a solution to our environmental challenges and that Volkswagen’s dedication to the development of new electric vehicles will be a key factor in this equation. Tennessee is quickly becoming a hub for world-class technology innovation. Drawing from a unique combination of academic research and Volkswagen’s expertise, the tech teams located in the state are developing game-changing solutions.

Thanks to these teams, Tennessee is now home to cutting-edge research and development. By leveraging the groundbreaking research occurring in the area with Volkswagen’s industrial prowess, our teams are equipped to design and produce world-class technological advancements.

Thanks to our dedicated teams, we have already seen a range of incredible, innovative projects. From autonomous vehicles to artificial intelligence applications, the possibilities are endless.

Our technology teams in Tennessee are ushering in a new era of progress. Through their combined expertise, we have the potential to create technologically-advanced solutions that can be applied to a range of sectors.

The impressive results achieved by our teams prove that technology can reach new heights when the correct resources are united. We are excited to see what the future holds for our teams in Tennessee and are confident that they’ll continue to make tremendous progress in the years to come. For car manufacturers and car enthusiasts alike, the news of the Knoxville Innovation Hub’s research has been nothing short of revolutionary. Through the Hub’s team-centered approach to material science, they have been able to create lighter and stronger materials, as well as develop more efficient and effective molding processes. These discoveries have already been adopted by high profile brands such as Bentley and Lamborghini, and their utilization has begun to have a noticeable effect on the market.

The primary benefit of lightweight materials and improved molding processes is the general reduction of production cost, while also allowing vehicles to become more energy efficient and in some ways, safer. Ultra light aluminum alloy, for example, is cheaper to produce than some of the heavier materials that are currently used and because of its lightness, it reduces strain on engines (and subsequently fuel consumption). Additionally, lightweight materials tend to be more durable and crash resistant–certainly a boost in terms of safety ratings and consumer confidence.

Of course, there are other advantages to the innovations which have come out of the Knoxville Innovation Hub. For instance, since the team has already been able to develop materials and processes that are applicable to large scale production, car manufacturers can accelerate production times which in turn, helps to lower their costs. This allows for a competitive advantage in the marketplace.

It’s clear that the Knoxville Innovation Hub’s research has made an immediate and tangible difference in the car industry. Thanks to their contributions, the overall car-buying experience has been improved for everyone; from companies to consumers. And with new developments still in the works, the impact of this research is likely to be felt for years to come. Are you looking to keep up to date with all the latest additive manufacturing news & trends? Look no further! Follow us on our social media pages and sign up for the weekly newsletter to get the info directly to your inbox.

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