From these materials, we then design the composite product with two objectives:
1 - To minimise the amount of material used
Because the less material we use, the more we limit the impact of the tyre during its entyre lifecycle.
2 - Obtain maximum performance
The design of our tyres consists of assembling these materials in the most judicious way possible to make them work at their best intrinsic performance.
Optimisation of environmental impact and working conditions
While aiming at performance, our industrial production system is organised in such a way as to :
- Optimise the environmental impact Our ambition is to achieve carbon neutrality across the production base by 2050. We have made significant progress since 2010. Our 2030 target was approved by SBTi (Science-based targets) as ambitious and consistent with the goals of the Paris Agreement, and has since made even more ambitious.
- Optimise working conditions in order to obtain a good quality of life at work for MICHELIN staff.
A product with identical performance across countries
Our industrial process allows us to reproduce products identically on an international scale. Thus, a MICHELIN tyre has exactly the same level of performance whether it is manufactured in the United States, China or Europe.
The steps of the tyre making process
1- Understanding through research
We study peoples' tyre usage and driving habits to make sure our tyres meet everyone's needs.
2- Developing and mixing materials
Over 200 ingredients go into a tyre. They play vital roles in safety, fuel efficiency, performance and eco-friendliness. Their percentage varies according to the type of tyre to be manufactured.
These components fall into five groups:
- Natural rubber: the main component of the tread layers
- Synthetic rubber: part of the treads of car, van and 4x4 tyres. Research is underway to develop synthetic rubber (which is essential to achieve the targeted performance) so that it is made from more sustainable materials than oil or gas.
- Carbon black and silica: used as a reinforcing agent to improve durability. These components can be recycled. They can be processed and reused at the end of a tyre's life to make new tyres.
- Metallic and textile reinforcement cables: the "skeleton" of the tyre, forming the geometric shape and providing rigidity. Metal can also be recycled and research is underway to investigate the reuse of some textiles, originating from consumer products other than tyres, for the manufacture of new tyres.
- Numerous chemical agents: for unique properties like low rolling resistance or ultra-high grip
3- Designing
We use simulations to test and select the best tyre concepts to be developed. The difficulty lies in minimising the amount of material to meet the performance criteria. These simulations allow us to predict the performance which will then be confirmed by tests.
4- Manufacturing
We manufacture and reproduce each tyre in the most optimised designs possible with an optimum level of performance for both the product and the economic aspect.
5- Quality control
Quality control is not an end step. We measure quality throughout the entyre process.
Quality must be respected at every stage: design, manufacturing and distribution
What is the structure of a tyre?