A Study on Machining Performances of Micro-Drilling of Multi-Directional Carbon Fiber Reinforced Plastic (MD-CFRP) Based on Nano-Solid Dry Lubrication Using Graphene NanoPlatelets

A Study on Machining Performances of Micro-Drilling of Multi-Directional Carbon Fiber Reinforced Plastic (MD-CFRP) Based on Nano-Solid Dry Lubrication Using Graphene NanoPlatelets

The objective of this study is to investigate the tribological behavior of graphene nanoplatelets (xGnPs) as nano-solid lubricants, and to evaluate their applicability to the micro-drilling of multi-directional carbon fiber-reinforced plastic (MD-CFRP). To verify the tribological effect of nano-soli...

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Bibliographic Details
Published in:Materials Vol. 14; no. 3; p. 685
Main Authors: Kim, Jin Woo, Nam, Jungsoo, Jeon, Jaehun, Lee, Sang Won
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 02-02-2021
MDPI
Subjects:
Boron
Carbon fiber reinforced plastics
Carbon fiber reinforcement
Composite materials
Drilling
Friction
Graphene
Lubricants & lubrication
Lubrication
Machining
Mechanical properties
Multi wall carbon nanotubes
Nanoparticles
Solid lubricants
Spectrum analysis
Surface properties
Tool wear
Tribology
England
United States > US
graphene nanoplatelets
machining performance
micro-drilling
multi-directional carbon fiber-reinforced plastic (MD-CFRP)
tribological behavior
nano-solid dry lubrication
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Summary:The objective of this study is to investigate the tribological behavior of graphene nanoplatelets (xGnPs) as nano-solid lubricants, and to evaluate their applicability to the micro-drilling of multi-directional carbon fiber-reinforced plastic (MD-CFRP). To verify the tribological effect of nano-solid lubricants, three kinds of xGnPs (xGnP C-750, xGnP M-5, and xGnP H-5), multiwall carbon nanotubes (MWCNTs), and hBN are compared by the ball-on-plate test. Of these, three xGnPs are selected as nano-solid lubricants to investigate the micro-drilling performance of MD-CFRP using nano-solid dry lubrication, and the experimental results demonstrate that all xGnPs can enhance lubrication action in terms of surface quality (delamination, uncut fiber, and inner surface) and tool wear. In particular, larger graphene nanoplatelets (xGnP M-5 and xGnP H-5) are superior to the smaller one (xGnP C-750) by guaranteeing enhanced sliding action between the tool grain and the CFRP composite.
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ISSN:1996-1944
1996-1944
DOI:10.3390/ma14030685