Smart mobility is as relevant as ever, with growing urbanisation rates in almost all countries across the globe. But the concept isn’t new. At least I recall reading about the future of driving when I was very young, and a university project concluded that in the future, cars would be able to connect to each other and slide onto some sort of rail system when driving on the highway, so nobody would have to worry about steering or speeding when covering the long stretches of the journey. Not surprising, the project couldn’t have been more wrong in its conclusion. But why didn’t it work? It would have reduced accidents, pollutant emissions, road wear and maintenance costs, and it would have probably been quite easy to develop guiding chips and software to let cars in and out of the chain.

Well, the answer is simple, and is proven by the fact that car sales are still going up worldwide in spite of an ever-growing range of alternative transportation methods available to the buyers: freedom. As global wealth keeps increasing, all societies can recognize that the first luxury people growing out of poverty take is to buy a car, in many cases even before considering taking out a mortgage to buy a house. Why do they do that? Obviously to signal their increased wealth to the people around them (it’s harder to show if your house is bought or rented), but also to enjoy the freedom of being able to go exactly where they want to go and when. In these corona times being able to move about without bumping into others in public transportation is of course also an important factor. If this wasn’t the case, car sales would be dropping rapidly. Public transportation is cheaper, if you compare it to total cost of ownership of a car it’s easy math, and in many cases it’s also faster and easier. Plus, you can be productive getting some work done or enjoying a good rest when you don’t have to sit at the wheel in a traffic jam.

For those who care about global warming and reducing the environmental impact, there’s even further incentive to get rid of the car, but still, this is not what we see in the new car sales figures – although you could argue that some people buy a new car because it pollutes less than the old one.

Bicycles

With all the new technology, it will be very interesting to see how smart mobility will be implemented in cities across the globe, and if it will change the trend for good. After all, it’s be big cities with massive population numbers that will make a difference for the planet. If we look at a city like Copenhagen, it has for many years focused on being the world’s best city to ride a bicycle in, and it has implemented many innovative structures allowing cyclists to zip from one place to another in a matter of minutes with minimal need to stop along the way. Some places bridges have been built just to cater to cyclists. No doubt you can get around faster and cheaper in Copenhagen if you ride a bike than by any other means of transportation.

Another thing that is becoming increasingly interesting in the big cities is the drone technology, now we have seen Chinese firefighters putting out high-rise fires using drones controlled from the ground, and many places they have also begun working as parcel or food delivery agents. But is there a viable case to argue that we will all be flying in private drone vessels instead of driving in cars in the coming decade? I wouldn’t bet my money on it. First of all, it would take long until the general public would trust a drone manufacturer enough to not fear dropping to the ground or being flung into a building or another drone mid-air at any moment. Second of all, they would most definitely run on electricity, which we know from electric cars means very heavy batteries and/or short operation times. Probably in colder regions you would also struggle with much lower performance during winter, and possibly weather conditions not allowing them to take off.

That’s another nightmare scenario – to be caught in a thunderstorm or hailstorm up in the air.

Naturally, the ultimate challenge would be that everyone would basically need to have a pilot license to operate them, and air traffic control would be an entirely new concept in this scenario. We have all seen movies like Stars Wars or The Fifth Element where flying vehicles somehow get into invisible lanes and layers, but it’s hard to see how that can go from fiction to reality.

Urban hubs

So, how can consumers most likely have their desire for freedom fulfilled within a smart mobility concept? Most likely by creating urban hubs or city line parking facilities, so it’s easy to take the car to, from, or between cities, but not inside them. At these hubs, you would park the car and jump on the next shuttle to anywhere in the city, or even ride a bike that you brought with you. Designing these hubs, along with ample green areas in the cities, is the only way that any city planner can create the grounds for real smart mobility, and not take people’s freedom away from them. Then the only thing left is to address the issue of the environmental impact caused by passenger cars, both combustion engine emissions and tyre pollution from wear during use and waste management at end of tyre life.

Tyre manufacturers don’t seem to be making huge changes to the technology yet, except for a few innovative products like the Michelin Tweel – and the ultimate challenge is of course that the vehicle so far has to be in contact with the road surface to move and handle satisfactorily. It’s hard to imagine any tyre concept where rubber against the road surface isn’t involved, and it’s also hard to imagine any tyre manufacturer supporting such a project, given the massive investments they have in their production equipment, which isn’t easy to readjust to put out something else. Well, at least not any serious manufacturer – there was a Chinese plant that stopped producing tyres this year to start producing face masks instead because of corona demand, but that probably says something about the quality of both products coming out of that factory, and it makes me very interested in reading their mission statement.

Ultimately, for tyre manufacturers to start investing in any game changing product development, we would have to see a development like we have seen with British Tobacco actually advertising against smoking – which is very much in line with the trends of the day but doesn’t seem rational from a business perspective. So, to conclude, I’ll venture a bet that we won’t see any drastic changes in how much smarter our mobility options will become until we either see a scenario that will allow people to experience the same level of freedom as owning a car, drastically reducing the environmental impact from driving and tyre waste, and/or creating cities where it utterly doesn’t make any sense to drive instead of hopping on the city’s smart mobility system, whatever that might turn out to be.

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Oak Group Holdings has reaffirmed its strategic growth ambitions following a transformative business update centred on the acquisition of Exhaust, Tyres and Batteries (ETB). The move makes Oak the sole owner of ETB, adding two wholesale sites and 52 retail shops across the Midlands, Wales and Southwest England to its existing portfolio.

With the acquisition complete, Oak is now prioritising improvements to stock availability throughout the ETB network to align with the high service standards characteristic of the family-run enterprise. Supporting this effort is the launch of Oak’s new 155,150 square feet storage and distribution hub in Newport, which can hold over 250,000 tyres. A dedicated fleet of heavy goods vehicles will enhance service and product access for brand dealers across the southwest and South Wales.

Financial and tax advisory services for the deal were provided by Grant Thornton, covering corporate finance and due diligence. Legal counsel was led by Michael Hudson of DLA Piper, while CG Professional, under managing partner Louise Myers, handled all employment aspects of the acquisition and continues to support Oak Group Holdings on a retained basis post-transaction.

Peter Cross, Commercial Director, Oak Tyres, said, “The first quarter of 2026 has been transformational for our family business in many ways. We have grown our wholesale network even further and we are working with the fantastic team at ETB to develop the service offer and stock availability to the retail trade across the region. We are committed to ensuring these developments enhance the quality service we always strive to deliver for our customers.”

Mike Tillson, Partner at Grant Thornton Corporate Finance, said: “It’s been a pleasure to work with Oak and the Cross family on this exciting and transformational acquisition. We are sure that the combined Group will go from strength to strength and that ETB will be successful into the future under their ownership.”

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Michelin has inaugurated PolMixLab, a new associated research laboratory (LabCom), on 22 April 2026, in collaboration with the National Centre for Scientific Research (CNRS), INSA Lyon, Lyon 1 University and Jean Monnet University. The primary objective of the joint initiative is to invent the rubber of the future by accelerating innovation in polymer materials for multiple industrial uses. The partnership leverages the combined scientific and industrial expertise of all parties to balance performance, durability, and energy efficiency.

Against a backdrop of ecological transition and rising industrial demands, polymer materials like elastomers are a critical research frontier. Their applications span automotive, aeronautics, healthcare and construction, requiring continuous improvements in durability, recyclability, energy sobriety and advanced functionality. To address these challenges, research teams from the Polymer Materials Engineering Laboratory – representing the CNRS, INSA Lyon, Lyon 1 University and Jean Monnet University – have joined forces with Michelin to develop next-generation polymer materials.

Academic and industrial researchers will pursue three main goals over the course of four years. The first involves reducing manufacturing energy for elastomers through digital simulation and improved blend quality. The second focuses on creating new elastomers that exceed current performance limits via innovative structures. The third aims to boost environmental performance by integrating short-loop recycling directly into the polymer formulation phase. The resulting rubbers are intended for strategic applications in mobility, medical devices, aeronautics and high-performance industrial equipment.

PolMixLab represents a structural initiative rooted in Michelin’s 130 years of materials science expertise, spanning chemistry, material transformation, composite design and use-case knowledge from basic research to industrialization. The laboratory marks the 10th active associated research laboratory between the CNRS and Michelin, underscoring a long-term commitment to reducing carbon footprints, extending material lifespans and optimising performance for contemporary industrial and environmental needs.

Mehdi Gmar, Chief Innovation Officer, CNRS, said, “The CNRS is pleased with the creation of PolMixLab, a new associated research laboratory with Michelin, a leading partner with which it has a longstanding relation of trust since the 1990s, one that is structured by a framework-agreement renewed multiple times and nearly forty collaborations each year. This associated research laboratory, which also includes INSA Lyon, Lyon 1 University and Jean Monnet University, marks a new stage in this cooperation by developing polymer materials that offer higher performance, and are more recyclable and sober in energy.”

Christophe Moriceau, VP – Advanced Research, Michelin Group, said, “With PolMixLab, Michelin is strengthening its ability to anticipate and accompany major industrial and environmental issues connected to materials. By combining our unparalleled expertise in materials science and polymer composites with the academic excellence of our partners, we strive to invent rubbers that offer higher performance and are more durable and sober in energy. This research indeed includes the development of materials from biosourced resources, as well as control over material life cycle assessment, with a view to creating innovative solutions offering reduced environmental impact in the service of mobility, along with numerous industrial applications beyond tyres.”

Bruno Lina, President, Lyon 1 University, said, “PolMixLab illustrates the capacity of Lyon 1 University to develop structural research partnerships where scientific excellence meets industrial and environmental issues. By mobilising our expertise in materials science alongside our academic partners and Michelin, we help develop innovative solutions for materials that offer higher performance and are more suitable for the uses of the future.”

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Hankook Tire, the exclusive tyre supplier to the FIA World Rally Championship (WRC), is supporting Round 5 of the 2026 WRC season, Rally Islas Canarias, taking place from 23 to 26 April across Spain’s Canary Islands. For the event, Hankook is providing its Ventus Z215 and Ventus Z210 tarmac rally tyres, with the former engineered for precise handling on abrasive asphalt and the latter designed for wet-road traction and water evacuation.

Celebrating its 50th anniversary in 2026, Rally Islas Canarias returned as an official WRC round for the second consecutive year after joining the calendar for the first time the previous season. Based on Gran Canaria Island, home to the capital Las Palmas, the rally featured 18 special stages covering a competitive distance of 322.61 kilometres, all on asphalt. The opening day’s highlight was the Super Special Stage at the BP Ultimate - Circuito Islas Canarias, where drivers competed in a head-to-head time-attack format.

Regarded as one of the championship’s most iconic tarmac events, the rally is defined by the abrasive, high-grip asphalt and dramatic elevation changes of Gran Canaria’s volcanic terrain. While the consistent surface grip allows circuit-like, high-speed precision driving, it also subjects tyres to intense physical stress. Maintaining grip under high surface temperatures and adapting to unpredictable mountain weather is expected to make tyre performance a decisive factor in the rally’s outcome.

Since the 2025 season, Hankook has served as the exclusive tyre supplier for all WRC classes, reinforcing its role as a key technical partner in global motorsport. By leveraging data from top-tier series such as the ABB FIA Formula E World Championship and the WRC, alongside advanced R&D infrastructure, Hankook continues to drive innovation in high-performance tyre technology while strengthening its global premium brand position.

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Continental is providing comprehensive tyre support to Royal Den Hartogh Logistics, a Dutch family-owned leader in container-based bulk transport for the chemical and food industries. With a history of collaboration exceeding 60 years, the tyre manufacturer now supplies professional tyre management and rolling resistance optimised tyres from the Conti Eco Gen 5 family to the logistics firm’s European fleet of over 900 vehicles.

Peter Rodenburg, Senior Technical Manager at Den Hartogh, has identified safety, costs and the energy transition as the biggest challenges in the company’s Europe wide operations. His assessment highlights the need for more fuel-efficient driving and emission reductions. Meanwhile, Hinnerk Kaiser, Head of Product Development for Bus and Truck Tires at Continental, notes that the fifth generation of the Conti Eco tyre family is specifically designed to address transport sector customer needs and Europe’s dynamic regulatory environment.

The vehicle fleet operates across Europe with the latest generation tyres, supported by Continental’s Pull Point tyre monitoring, breakdown analysis and cost evaluation. Rodenburg has confirmed that the Eco tyre’s optimisation for rolling resistance delivers significant benefits in fuel efficiency and overall performance. The Conti Eco HD 5 has demonstrated its value in both fuel economy and mileage while also performing reliably under varying road and weather conditions.

Rodenburg has reported that after one year of joint fleet monitoring, the first impression of tyre performance and wear is positive. The switch to this tyre, combined with other vehicle optimisations, has yielded measurable cost savings. He states that with the complete package in place, the company has seen significant improvements in average fuel consumption of up to eight percent, making the move to the Conti Eco HD 5 a positive decision.

Looking ahead, Rodenburg acknowledges that the energy transition is taking shape, though the speed of fleet electrification remains uncertain. He emphasises that energy is becoming more expensive and must be used as efficiently as possible, with rolling resistance and air resistance representing losses to be minimised. An optimal tyre, he concludes, brings measurable benefits at every stage of the fleet’s transformation, an area where the rolling resistance optimised Conti Eco Gen 5 excels in contributing to fleet optimisation.

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