Tribology Online (Feb 2018)

Proposal of Biomimetic Tribological System to Control Friction Behavior under Boundary Lubrication by Applying 3D Metal Printing Process

  • Misa Yonehara,
  • Hikaru Okubo,
  • Chiharu Tadokoro,
  • Shinya Sasaki,
  • Braham Prakash

DOI
https://doi.org/10.2474/trol.13.8
Journal volume & issue
Vol. 13, no. 1
pp. 8 – 14

Abstract

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A new concept was proposed as biomimetic tribological (BMT) system by using three-dimensional (3D) printing process. The BMT had a lubricant supply path (LSP) beneath the sliding surface. The tribological properties could be actively controlled by directly supplying lubricant additives (anti-wear additive and friction modifier) alone to the sliding surface through the LSP during a friction process. To confirm the effectiveness of the LSP surface for improving the tribological performance under boundary lubrication, friction tests were conducted on a plate specimen with a lubricant supply path that was manufactured by a 3D metal printer. Experimental results suggest that the LSP surface system was more effective for friction reduction than a conventional system, and it offered an effective way to actively control the tribological performance under boundary lubrication.

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