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A seamless multi-scale model for contact, friction, and solid lubrication

A seamless multi-scale model for contact, friction, and solid lubrication

Objective

Friction and wear are liable for enormous losses in terms of energy and resources in modern society. Costs related to unwanted friction in industrialised countries are estimated to be about 3% of the gross domestic product. Urgency is even greater nowadays as friction between micro-components has become the bottleneck of several applications for which miniaturisation is critical.

Lubrication is a commonly adopted solution to reduce friction. Graphite is a broadly used solid lubricant for large scale applications, while the lubricating properties of a few-layers graphene hold great promise especially for smaller scale applications. At present, our knowledge of the friction and lubrication of rough surfaces is essentially phenomenological. This is because friction is only deceivingly a simple mechanisms, which instead requires understanding of physical phenomena simultaneously acting at different length scales. The change in contact size, which controls the friction stress, depends on nano-scale phenomena such as atomic de-adhesion, sliding, dislocation nucleation in metals, but also on micro- and macro-scale phenomena as (size-dependent) plastic deformation.

The objective of this proposal is to reach an unprecedented understanding of metal friction and lubrication by accounting, for the first time, for all relevant phenomena occurring from the atomic to the macro-scale, and their interplay.
To this end, a seamless concurrent multi-scale model will be developed. The power of this new model lies in its capability of describing three-dimensional bodies with realistic roughness in sliding lubricated contact, with the accuracy of an atomistic simulation.

This research builds towards a complete picture of metal friction and lubrication. The materials chosen for the proposed research are copper and multi-layer graphene. However, the model that will be developed is general and can be used to study different materials, lubricants and environmental conditions.
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Host institution

UNIVERSITA DEGLI STUDI DI PADOVA

Address

Via 8 Febbraio 2
35122 Padova

Italy

Activity type

Higher or Secondary Education Establishments

EU Contribution

€ 1 819 985

Beneficiaries (2)

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UNIVERSITA DEGLI STUDI DI PADOVA

Italy

EU Contribution

€ 1 819 985

TECHNISCHE UNIVERSITEIT DELFT

Netherlands

EU Contribution

€ 180 000

Project information

Grant agreement ID: 681813

Status

Ongoing project

  • Start date

    1 June 2016

  • End date

    30 November 2022

Funded under:

H2020-EU.1.1.

  • Overall budget:

    € 1 999 985

  • EU contribution

    € 1 999 985

Hosted by:

UNIVERSITA DEGLI STUDI DI PADOVA

Italy