Self-healing materials, capable of repairing physical damage, present a significant opportunity for disruptive innovation in materials science, improving longevity and reliability. The automotive industry is of particular interest, with a high degree of importance placed on maintaining the appearance of vehicles, while rapid self-healing tyres prevent punctures from interrupting journeys. The automotive sector offers a clear route to market for this emerging family of next-generation materials.
IDTechEx has released a new report titled “Self-Healing Materials 2025-2035: Technologies, Applications, and Players.” This report provides a comprehensive market assessment, including an analysis of technological progress, growth opportunities, and commercial readiness levels. It offers a third-party, unbiased opinion and outlook for the market.
The automotive industry is often an early adopter of luxury products, where increased performance and convenience are selling points to consumers. Self-healing materials can be used in various automotive applications, including tyres, paints, and coatings. Use cases extend to asphalt road surfaces, where damage can lead to issues for vehicles and drivers.
Self-Healing Tyres
Punctures are a frequent issue for drivers, and incorporating self-healing capabilities to repair them could offer several environmental benefits, such as extending tyre lifespan and reducing the need for replacements.
Eliminating the necessity of carrying a spare tyre would also decrease vehicle weight, leading to lower emissions. This advantage is even more significant as electric vehicles become more prevalent due to their increased weight and higher torque.
The majority of leading tyre manufacturers offer a self-healing tyre consisting of a sealant layer applied to the inside of the tyre wall. However, this liner creates challenges around storage and end-of-life, but alternative approaches are emerging.
Self-healing tyres are better described as “self-sealing” since they do not fully restore their original properties after a puncture. With a price premium of around 30% over standard tyres, it can be expected that these tyres remain a high-end option in the mid-term, primarily adopted by luxury vehicle owners, with convenience as the main selling point.
Self-Healing Coatings and Paints
Paint protection film typically consists of a polyurethane wrap that flows into scratches. The film closely resembles vinyl bumper sticker material but is significantly thicker, making it highly durable while remaining nearly invisible.
Self-healing properties have made it a popular choice for protecting the paint on cars and trucks. Beyond film, coatings can also be applied to the most damaged areas of vehicles, such as the front bumper, headlights, and mirror housing.
A notable example is the BMW iX, released in 2022. The updated electric motor requires less cooling than its predecessors, so the well-recognizable BMW grille has been repurposed for the iX. It houses camera technology, radar functions, and various sensors, along with a heating and cleaning system, making durability a top priority. To enhance resilience, the grille is coated with polyurethane, which is reported to repair minor scratches within 24 hours at room temperature or in just five minutes when exposed to warm air.
Self-Healing Asphalt
Another major source of car damage is potholes and other damage to the road’s surface. Asphalt is typically used for flat surfaces such as roads and carparks, but as the material ages, the top surface wears and degrades. There is a significant need to enhance safety, minimize maintenance, and extend the lifespan of the large number of asphalt surfaces worldwide.
Self-healing methods typically use microcapsules that release liquid bitumen to seal cracks in the surface. Some proposed solutions require heating equipment (induction) for non-automatic healing, where the induced heating further enhances the flow of the liquid bitumen.
The new IDTechEx “Self-Healing Materials 2025-2035: Technologies, Applications, and Players” report comprehensively evaluates this emerging market. With a strong background in advanced materials, IDTechEx provides independent analysis, including technology comparisons, industry outlooks, and key player assessments, offering valuable insights into this promising yet early-stage sector.