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- Home | Friction - Springer
Friction will cease publication with Springer Nature on completion of Volume 12 2024 The journal will continue in cooperation with Tsinghua University Press from Volume 13 2025
- Friction | SpringerLink
We discuss different forms of friction, static friction, kinetic friction, and rolling friction, and show how the resulting frictional forces can be parameterized
- Volumes and issues | Friction - Springer
Friction will cease publication with Springer Nature on completion of Volume 12 2024 The journal will continue in cooperation with Tsinghua University Press
- Aims and scope | Friction - Springer
Friction is a single-blind peer-reviewed open access journal for the publication of theoretical and experimental research works related to the friction, lubrication and wear
- Submission guidelines | Friction - Springer
To find out more about publishing your work Open Access in Friction, including information on fees, funding and licences, visit our Open access publishing page
- Articles | Friction - Springer
Friction will cease publication with Springer Nature on completion of Volume 12 2024 The journal will continue in cooperation with Tsinghua University Press
- An analytical prediction of dynamic friction coefficient between rough . . .
An analytical model of dynamic friction coefficient is established to predict the friction coefficient between machined rough surfaces The adhesion forces are taken into account to revise the normal contact behavior
- Unlocking the secrets behind liquid superlubricity: A state-of-the-art . . .
Superlubricity, the state of ultralow friction between two sliding surfaces, has become a frontier subject in tribology Here, a state-of-the-art review of the phenomena and mechanisms of liquid superlubricity are presented based on our ten-year research, to unlock the secrets behind liquid superlubricity, a major approach to achieve
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