3. Modeling aging

Aging models can be empirical, semi-empirical, physical or multiphysical. Physics-based models require a thorough understanding of the phenomena at work in lithium-ion batteries (see [D 7 001] ).

Despite numerous experimental techniques for physicochemical and electrochemical characterization of aging, degradation phenomena are so complex and interdependent that the development of a comprehensive model still remains a challenge. And even when an ageing mechanism is well understood, it remains to be equated satisfactorily.

You do not have access to this resource.

Exclusive to subscribers. 97% yet to be discovered!

You do not have access to this resource.
Click here to request your free trial access!

Already subscribed? Log in!

The Ultimate Scientific and Technical Reference

A Comprehensive Knowledge Base, with over 1,200 authors and 100 scientific advisors

+ More than 10,000 articles and 1,000 how-to sheets, over 800 new or updated articles every year

From design to prototyping, right through to industrialization, the reference for securing the development of your industrial projects

This article is included in

Vehicules and mobility

This offer includes:

Knowledge Base

Updated and enriched with articles validated by our scientific committees

Services

A set of exclusive tools to complement the resources

Practical Path

Operational and didactic, to guarantee the acquisition of transversal skills

Doc & Quiz

Interactive articles with quizzes, for constructive reading

Subscribe now!

Ongoing reading
Modeling aging

Previous
page Aging phenomena

Conclusion

Bibliography

(1) - GALUSHKIN (N. E.), YAZVINSKAYA (N.N.), GALUSHKIN (D.N.) - A critical review of using the Peukert equation and its generalizations for lithium-ion cells. - Dans J. Electrochem. Soc., 167(12), 120516 (2020).
(2) - BESSLER (W.G.) - Capacity and resistance...