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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Hankook Tire concluded Round 2 of the 2026 FIA World Rally Championship, Rally Sweden, on 15 February in the Umeå region, where its Winter i*Pike SR10W tyre was put to the ultimate test. As the championship’s sole rally tyre supplier, Hankook equipped all competing crews with this dedicated winter tyre, which features specially engineered ice-rally stud pins. Designed to conquer the most severe icy environments, its asymmetric tread pattern works in tandem with the studs to provide exceptional grip, powerful braking and unwavering high-speed stability on frozen surfaces.

Rally Sweden, first held in 1950, is unique on the calendar as the only event contested entirely on snow and ice. Crews were challenged by 18 special stages covering around 300 kilometres, with competition intensified by speeds reaching up to 200 kmph and rapid temperature fluctuations. These punishing conditions demanded precise car control, reliable tyre traction and steadfast braking performance, making the choice of the Winter i*Pike SR10W critical for success.

Following a fierce contest, Toyota GAZOO Racing’s Elfyn Evans and co-driver Scott Martin claimed victory by a margin of 14.3 seconds, securing their second consecutive win in Sweden. Having also finished second in the season opener at Rallye Monte-Carlo, this result propelled the pairing to the top of the championship standings with 60 points.

The WRC now turns its attention to the formidable Safari Rally Kenya, scheduled for 12 to 15 March 2026 near Naivasha. This event is renowned as one of the most gruelling on the circuit, where crews must navigate extreme heat, mud from heavy rainfall and rapidly changing weather.

Hankook’s commitment to the sport extends beyond event supply. The company continues to refine its high-performance rally technology through intensive collaboration with the FIA and major automotive manufacturers, having completed over 2,000 kilometres of real-vehicle testing across eight countries. With its exclusive tyre supply agreement for all WRC classes covering the 2025 to 2027 seasons, Hankook is reinforcing its premium brand identity and solidifying its leadership in motorsport engineering.

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Ecolomondo Corporation, a leading Canadian innovator in sustainable scrap tyre recycling technology, has appointed Craft Capital Management, LLC as its strategic investment banking advisor. This partnership is designed to bolster Ecolomondo’s capital markets strategy, with a focus on financing initiatives and a planned uplisting to the NASDAQ. Securing this position is a key step for the company to obtain the necessary capital for its global expansion.

Eliot Sorella, Ecolomondo’s Executive Chairman, highlighted that Craft Capital’s successful history of providing capital solutions is well-aligned with the company's goal to scale up as a major supplier of recovered carbon black and tyre pyrolysis oil. These materials are produced using Ecolomondo’s proprietary Thermal Decomposition Process. As worldwide demand for circular and sustainable materials grows, this advisory engagement is seen as a vital move to advance the company's market position and support its next growth phase.

Craft Capital, a full-service brokerage firm with over a century of combined financial experience, offers customised investment banking services and connects clients to a broad network of family offices and institutional investors.

Sorella said, “Craft Capital’s proven track record in delivering capital solutions aligns strongly with our strategy to scale as a leading producer of recovered carbon black (rCB) and tyre pyrolysis oil (TPO) using Ecolomondo’s proprietary Thermal Decomposition Process (TDP). As global industries accelerate their transition towards circular and sustainable materials, this engagement is an important step in advancing our capital markets strategy and supporting our next phase of growth.”

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Continental is set to make a significant impact at the upcoming Tire Technology Expo in Hannover with a strong presence at the technical conference scheduled for 3 March 2026. The company will kick off the event with a major presentation centred on the evolution of tyre technologies designed to meet the demands of autonomous driving. Dr Andreas Topp, who leads Platform Development and Industrialisation for passenger car tyres at Continental, will illustrate how the vision of autonomous vehicles is transitioning into everyday reality and how the tyre manufacturer is proactively developing innovative solutions to support this shift.

In addition to the opening session, Continental experts will deliver three further presentations, each addressing critical areas of tyre science and environmental regulation. One of these will explore the use of recovered carbon black derived from end-of-life tyres as a filler material. Professor Jorge Lacayo-Pineda, a specialist in materials evaluation, will delve into the complexities of identifying this material within vulcanised rubber compounds. Recovered carbon black, primarily obtained through pyrolysis, represents a milestone as the first industrially scalable filler sourced from discarded tyres. It is not considered a direct substitute for conventional carbon black but rather a distinct category of filler due to its unique composition, which includes carbon residues and a specific thermal background. Professor Lacayo-Pineda will examine the technological and regulatory possibilities that arise from detecting this material in new tyre compounds, focusing on reliable identification techniques such as electron microscopy and molecular spectroscopy.

Another key presentation will broaden the conversation around tyre emissions. Dr Frank Schmerwitz, a senior test engineer specialising in tyre wear, will address the limitations of current discussions that predominantly focus on tyre and road wear particles. He will highlight additional pathways of mass loss that are not captured by conventional measurements. His talk will consider the release of nanoparticles, the persistence of wear residue on road surfaces and the chemical degradation of this material due to environmental factors like oxygen and ultraviolet light, aiming for a more complete scientific picture.

The final presentation will tackle the complexities of modern tyre development in the context of new regulatory frameworks. Dr Pavel Ignatyev, an expert in rubber friction and wear physics, will discuss how the introduction of standardised abrasion limits and measurement methods under the Euro 7 regulation is reshaping innovation in the industry. He will explain the various parameters influencing tyre wear and how they interact with these new requirements. Through simplified models, he intends to demonstrate the intricate nature of tyre wear and outline the collective challenges that remain for the industry, emphasising that a deep understanding of these dynamics is crucial for translating regulatory mandates into effective technological advancements.

Dr Topp said, “The future of self-driving vehicles has begun. We are developing tyre technologies and products that meet the unique technical requirements of these vehicles. This includes topics such as interaction with smart vehicle dynamic controls, optimised fleet operations and tailored solutions for specific use profiles.”

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The concluding day of 2026 F1 Pre-Season Testing at the Bahrain International Circuit saw Charles Leclerc set the overall fastest lap of the entire six-day programme. The Ferrari driver delivered a time of 1:31.992s on the C4 compound Pirelli tyres during the final hour of running, improving by eight-tenths of a second on the previous benchmark established by Kimi Antonelli. This performance placed him ahead of Lando Norris in the McLaren, who recorded a 1:32.871s on the C3 tyre. Max Verstappen and George Russell followed, with times of 1:33.109s and 1:33.197s, respectively, both also set on the C3 compound. Notably, none surpassed Leclerc's own leading time on that particular compound, a 1:32.655s. Pierre Gasly rounded out the top times, utilising the softest C5 tyres to post a 1:33.421s.

The C5 compound saw limited use on the final day, employed only by Alpine and Williams for short-run simulations. Aston Martin, despite having the tyre available, opted not to run it and instead completed just six laps on C3s before their session was curtailed. In contrast, teams focused on different aspects of performance. Gabriel Bortoleto and Arvin Lindblad set the pace on the harder C1 and C2 compounds, respectively. The day was also notable for the absence of several drivers, including Fernando Alonso, Lewis Hamilton and Alex Albon, who did not participate in any track action.

Beyond outright speed, teams dedicated significant effort to long-distance evaluation. Gabriel Bortoleto completed 25 laps on the C2 compound for Audi, while Esteban Ocon undertook 24 laps on C1s for Haas. Ocon was also the sole driver to run intermediate tyres, completing four laps to assess front wing behaviour. Over the entire six-day test, a total of 41,366 kilometres were covered across all 11 teams, a distance exceeding the Earth's circumference. The C3 compound proved the most popular, accounting for 61 percent of all laps. In total, 591 sets of slick tyres were utilised throughout the pre-season, with 326 of those deployed in the final three days alone.

Mario Isola, Pirelli’s Motorsport Director, said, “The radical changes introduced to the cars have inevitably shifted the teams’ focus towards power units and aerodynamics rather than tyres over the last few days. The final stages of testing are usually dedicated to optimising the car-tyre package, but it is clear some teams haven’t reached that point yet. Generally speaking, track feedback has been consistent with our simulation expectations. Drivers were able to gain confidence with the entire Pirelli range through both performance trials and long runs, even using the C4 and C5 compounds which aren’t particularly suited to a circuit like Sakhir.

“Mechanical resistance appeared strong across all options, with no signs of graining or blistering. Degradation levels are almost certainly higher now than what we expect for the Bahrain race, when temperatures will be lower and cars more developed. A central theme this season will certainly be balancing temperatures between the axles, especially ahead of the first race in Melbourne. The lower loads of a street circuit might require more intensive tyre preparation or differentiated tyre blanket temperatures, particularly in qualifying. In any case, it will be interesting to discover in Australia how much teams have been ‘sandbagging’ their engine power to avoid showing their hand. We only have to wait a couple of weeks to see the true pecking order.”

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