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Investigation of nanoscale scratching on copper with conical tools using particle-based simulation: data

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This is the complete dataset for a study which aimed to investigation nanoscale scratching on copper with conical tools using Smooth Particle Hydrodynamics simulation. The dataset comprises a number of related data sub-sets as follows:

1) Comparison of experimental data (taken from Applied Mathematical Modelling, 2012, 36(11), 5589-5602) and simulated forces for 100 nm, 150 nm and 200 nm scratching depths with a 60 degree negative rake angle tool.

2) Comparison of groove cross-sectional profiles between experimental data (taken from Tribology Letters, 2011, 42, 275-284) and simulated data for 150 nm scratching depth with a 60 degree negative rake angle tool.

3) Simulated cutting and normal forces for a 30 degree negative rake angle tool at scratching depths of 100 nm, 150 nm and 200 nm.

3) Simulated cutting and normal forces for a 10 degree negative rake angle tool at scratching depths of 100 nm, 150 nm and 200 nm.

4) Deformed layer thickness at different depths of nano-scratching with 10, 30 and 60 degree negative rake angle tools.

Research results based upon these data are published at http://doi.org/10.1007/s41871-023-00179-5


Funding

AFM-based nano-machining: developing and validating a novel modelling approach for effective process implementation in nanotechnology applications

Engineering and Physical Sciences Research Council

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Microsoft Excel

Language(s) in dataset

  • English-Great Britain (EN-GB)

Data-collection start date

2021-07-01

Data-collection end date

2022-09-01

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    School of Engineering

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