# Perfect Integration Smart Tire Production

Streamlining tire development complexities with platform-driven efficiency and precision.

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 [ie-perfect-integration-strategy-smart-tire-production-ebook-en.pdf](https://www.3ds.com/assets/invest/2024-10/ie-perfect-integration-strategy-smart-tire-production-ebook-en.pdf)

Perfect Integration Smart Tire Production

One major challenge is the **shift to electric vehicles (EVs) and autonomous vehicles**. EVs demand advanced tire materials, innovative designs and optimization of the 'Magic Triangle' — grip, rolling resistance and durability — to accommodate heavier weight, increased torque and enhanced safety needs. Autonomous vehicles further increase tire design complexities by requiring intelligent sensors for tire safety and performance.

**Sustainability** is another critical imperative. Under the 2015 Paris Accords, tire manufacturers must produce tires from 100% sustainable materials by 2050. This commitment demands a substantial reduction of carbon emissions and better tire recyclability. Non-compliance with environmental standards and varying
regional regulations, such as the Euro 72, can lead to market losses.

Additionally, **supply chain disruptions** — such as raw material shortages and logistical challenges triggered by weather, war and pandemic events — often inflate costs and delay time-to-market

With global vehicle miles set to double by 2030, **tire innovation to tackle the above challenges is more crucial than ever**. Meeting these demands with speed and agility requires an integrated approach — seamless transitioning to a modern, unified digital platform that streamlines processes and ignites innovation.

Streamlining tire development complexities with platform-driven efficiency and precision.

WFC20621

[test](/media/18994)

 ![test](https://www.3ds.com/assets/invest/2024-10/ie-innovation-in-the-tire-industry-hero-banner-1920x900.jpg)

Perfect Integration Smart Tire Production

One major challenge is the **shift to electric vehicles (EVs) and autonomous vehicles**. EVs demand advanced tire materials, innovative designs and optimization of the 'Magic Triangle' — grip, rolling resistance and durability — to accommodate heavier weight, increased torque and enhanced safety needs. Autonomous vehicles further increase tire design complexities by requiring intelligent sensors for tire safety and performance.

**Sustainability** is another critical imperative. Under the 2015 Paris Accords, tire manufacturers must produce tires from 100% sustainable materials by 2050. This commitment demands a substantial reduction of carbon emissions and better tire recyclability. Non-compliance with environmental standards and varying
regional regulations, such as the Euro 72, can lead to market losses.

Additionally, **supply chain disruptions** — such as raw material shortages and logistical challenges triggered by weather, war and pandemic events — often inflate costs and delay time-to-market

With global vehicle miles set to double by 2030, **tire innovation to tackle the above challenges is more crucial than ever**. Meeting these demands with speed and agility requires an integrated approach — seamless transitioning to a modern, unified digital platform that streamlines processes and ignites innovation.

Streamlining tire development complexities with platform-driven efficiency and precision.

WFC20621

[test](/media/18994)

[(IE) Precision-Driven Innovation in the Tire Industry Video Banner](/media/18771)