Mercedes presented a unique brake concept for electric cars – News

The brakes are located in the wheels of most classic cars, but there are also exceptions, such as the American army HMMWV, Alfa Romeo 75 or racing machines, where the brakes are located in the chassis of the car. The reasons can be varied, from trying to reduce unyielding weight to being able to fit larger brakes.

Mercedes-Benz has now boasted the development of a unique system for electric cars that specifically uses regeneration during braking, as energy that would otherwise be lost during deceleration is returned to the batteries. So classic brakes are used very little, so manufacturers can experiment with them in different ways.

At the same time, the Mercedes concept intends to place the brakes in a unit that integrates the electric motor and the gearbox, ie in the chassis of the car. The system should be fully enclosed and can be installed on both front and back sides.

Photo: Mercedes-Benz

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Thanks to the new location, the brakes would not suffer from corrosion, almost no maintenance would be needed, and their service life should be greatly extended. Unpleasant braking noises or brake dust emissions should be a thing of the past. Meanwhile, the system would likely need to be supplemented with active cooling for heavy braking issues.

Another advantage would be a lower weight of the wheel with the tire, which has a positive effect on the driving characteristics of the car. In addition, without the need to cool the brakes, the brand could use fully enclosed wheels with better aerodynamics, which wouldn’t get dirty as quickly without brake dust.

The entire system is still a concept, and is still being developed. At this time, it is not certain whether it will appear on production cars in the future.

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2024-11-26 11:54:00
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* Considering the potential benefits‌ and drawbacks,​ who‍ would⁢ be the ideal target market for ⁤vehicles using this braking technology?

## Open-Ended Questions for Discussion:

This⁢ article discusses Mercedes-Benz’s innovative brake ​concept for electric cars. Here are ⁣some open-ended questions aiming to spark discussion and consideration of different viewpoints:

**Concept & Technology**:

* What are the potential benefits ⁢and drawbacks of moving brakes inside ‌the wheel for electric cars?

* How might this⁣ concept impact the design and performance of electric vehicles ​beyond braking?

* What challenges‌ do you‌ foresee in implementing this technology on a mass-production scale?

**Environmental Impact**:

* This concept claims ‍to reduce brake dust emissions. How significant is brake ⁤dust as a pollutant, and what other strategies can ​be used to ⁤address this issue?

* Would fully ​enclosed wheels, as proposed in the ⁣article, have any negative environmental⁣ impacts?

**Vehicle Performance & ​User Experience**:

* How ‍might the placement of ⁤brakes inside the wheel affect ‌the feel and responsiveness‍ of braking for drivers?

* Would the advantages ‍of this system outweigh the potential‌ downsides for​ everyday⁢ drivers?

* ‌How does this ⁢concept ⁤align with the overall trend of ⁣electrification and autonomous driving in the automotive‌ industry?

**Future & Innovation**:

* What other innovative ideas could emerge as electric cars continue to​ evolve?

* What role do you think government regulations and consumer demand will play in⁢ shaping the future‌ of braking technology?

* Do you believe this concept has the potential to become widespread in the future, or will alternative solutions emerge?

**Thematic Sections for Discussion:**

1. **The Need for Innovation:**

‌ * Discuss ⁤the challenges presented by ‌traditional braking systems in electric vehicles.

* Explore the rationale behind Mercedes-Benz’s pursuit of a new braking concept.

2. **Inside-Wheel Brake Technology:**

* Delve deeper into how the proposed⁢ system works and its⁣ potential benefits.

*⁤ Analyze⁣ the possible drawbacks and technical ⁢hurdles associated with this concept.

3. **Environmental Concerns and Benefits:**

⁤ * Examine the environmental impact of brake dust and discuss the concept’s potential to mitigate this issue.

⁤ * Consider the broader implications of moving⁣ towards enclosed wheels for ergonomics and aerodynamics.

4. **Future Implications⁢ and Industry Trends:**

* Discuss the long-term prospects of this technology⁢ becoming mainstream.

⁤ * Look at other emerging trends in⁣ electric vehicle development and braking ​systems. ⁤

* Explore the role of consumer demand and regulatory pressure in driving ⁤innovation.