Supplementary data for the master thesis: 3D printed bio-inspired adhesives, friction force generation by modulating stiffness.

Frank Haring;

2020 || 4TU.ResearchData

Originally assigned keywords

• 3D printing
• Adhesives
• Bio inspired
• Friction
• Materials Engineering
• Mechanical Engineering
• Soft substrate
• master thesis

Corresponding MSL vocabulary keywords

• friction coefficient
• frictional deformation
• friction coefficient

MSL enriched keywords

• Measured property
• friction - controlled slip rate
• friction coefficient
• Inferred deformation behavior
• deformation behaviour
• frictional deformation
• Measured property
• friction - controlled slip rate
• friction coefficient
• synthesized material
• 3D printed

MSL enriched sub domains	rock and melt physics analogue modelling of geologic processes
Source	http://dx.doi.org/10.4121/uuid:6673cdf8-1f86-4c76-8f6f-c40b4e983347
Source publisher	4TU.ResearchData
DOI	10.4121/uuid:6673cdf8-1f86-4c76-8f6f-c40b4e983347
Authors	Frank Haring
Contributors	TU Delft, Faculty of Mechanical, Maritime and Materials Engineering Other
References	References
Citation	Haring, F. (2020). Supplementary data for the master thesis: 3D printed bio-inspired adhesives, friction force generation by modulating stiffness. (Version 1) [Data set]. 4TU.ResearchData. https://doi.org/10.4121/UUID:6673CDF8-1F86-4C76-8F6F-C40B4E983347