TY - GEN
T1 - Biotribological investigation of multi-tube foot for application in medical micro-robot
AU - Kim, Y. T.
AU - Kim, D. E.
PY - 2008
Y1 - 2008
N2 - In recent years, efforts to develop micro-robots for medical applications have been expanding. One of the key design issues in such micro-robots is to attain adequate frictional interaction between the robotic foot and the organ tissue. Particularly, it is important to generate the necessary frictional force without damaging the tissue. In this work, a design for the robotic foot was developed based on the frictional behavior of a tube structure. Fundamental experiments were initially performed to understand the bio-tribological behavior of a single tube. Then the design was modified to a multi-foot structure to achieve adequate friction. Bio-tribological investigation of a multi-tube foot in contact with a small intestine specimen of a pig was conducted. Friction tests were conducted using a pin-onreciprocator type bio-tribotester. It was found that the multitube foot shows stick-slip behavior when slid against the small intestine specimen. The major mechanism behind the stick-slip behavior was due to interlocking between the tubes and the surface structures of the intestine specimen. Results of this work may be utilized for optimum design of frictional surface of medical micro-robots and other biological devices.
AB - In recent years, efforts to develop micro-robots for medical applications have been expanding. One of the key design issues in such micro-robots is to attain adequate frictional interaction between the robotic foot and the organ tissue. Particularly, it is important to generate the necessary frictional force without damaging the tissue. In this work, a design for the robotic foot was developed based on the frictional behavior of a tube structure. Fundamental experiments were initially performed to understand the bio-tribological behavior of a single tube. Then the design was modified to a multi-foot structure to achieve adequate friction. Bio-tribological investigation of a multi-tube foot in contact with a small intestine specimen of a pig was conducted. Friction tests were conducted using a pin-onreciprocator type bio-tribotester. It was found that the multitube foot shows stick-slip behavior when slid against the small intestine specimen. The major mechanism behind the stick-slip behavior was due to interlocking between the tubes and the surface structures of the intestine specimen. Results of this work may be utilized for optimum design of frictional surface of medical micro-robots and other biological devices.
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U2 - 10.1115/IJTC2007-44262
DO - 10.1115/IJTC2007-44262
M3 - Conference contribution
AN - SCOPUS:43449092274
SN - 0791848108
SN - 9780791848104
T3 - 2007 Proceedings of the ASME/STLE International Joint Tribology Conference, IJTC 2007
SP - 957
EP - 959
BT - 2007 Proceedings of the ASME/STLE International Joint Tribology Conference, IJTC 2007
T2 - 2007 ASME/STLE International Joint Tribology Conference, IJTC 2007
Y2 - 22 October 2007 through 24 October 2007
ER -