Preliminary design of bio-inspired earth-burrowing robot
This project aims to improve the present burrowing technologies by utilizing the strategies of burrowing bioerosion from smart organisms found in the marine and freshwater environments of Southeast Asia countries such as Myanmar and Philippines. In this report, inspiration was taken from a freshwate...
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Nanyang Technological University
2024
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sg-ntu-dr.10356-1779532024-06-03T08:56:07Z Preliminary design of bio-inspired earth-burrowing robot Tan, Annabelle Mei Hwa Wu Wei (CEE) School of Civil and Environmental Engineering wu.wei@ntu.edu.sg Engineering Civil engineering This project aims to improve the present burrowing technologies by utilizing the strategies of burrowing bioerosion from smart organisms found in the marine and freshwater environments of Southeast Asia countries such as Myanmar and Philippines. In this report, inspiration was taken from a freshwater burrowing bivalve found in the silicate rock in Myanmar, also known as Lignopholas fluminalis. This organism mainly utilizes chemical etching and mechanical abrasion as its burrowing strategy in soil and rock. Dynamic friction tests with crushing and embedding on rock particles were performed to further understand the burrowing strategies and to preliminarily design a bio-inspired earth-burrowing robot. Strain gauges, data loggers, tachometer, and acoustic emission (AE) sensors were used to record the results. It was concluded that the highest burrowing efficiency is associated with the combined actions of chemical etching followed by mechanical abrasion under the same load. These preliminary tests then allow for further extensive studies to be conducted before preliminarily designing the bio-inspired earth-burrowing robot. Bachelor's degree 2024-06-03T08:56:07Z 2024-06-03T08:56:07Z 2024 Final Year Project (FYP) Tan, A. M. H. (2024). Preliminary design of bio-inspired earth-burrowing robot. Final Year Project (FYP), Nanyang Technological University, Singapore. https://hdl.handle.net/10356/177953 https://hdl.handle.net/10356/177953 en GE-13AB application/pdf Nanyang Technological University |
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Engineering Civil engineering Tan, Annabelle Mei Hwa Preliminary design of bio-inspired earth-burrowing robot |
| description |
This project aims to improve the present burrowing technologies by utilizing the strategies of burrowing bioerosion from smart organisms found in the marine and freshwater environments of Southeast Asia countries such as Myanmar and Philippines. In this report, inspiration was taken from a freshwater
burrowing bivalve found in the silicate rock in Myanmar, also known as Lignopholas fluminalis. This organism mainly utilizes chemical etching and mechanical abrasion as its burrowing strategy in soil and rock. Dynamic friction tests with crushing and embedding on rock particles were performed to further understand the burrowing strategies and to preliminarily design a bio-inspired earth-burrowing robot. Strain gauges, data loggers, tachometer, and acoustic emission (AE) sensors were used to record the results. It was concluded that the highest burrowing efficiency is associated with the combined actions of chemical etching followed by mechanical abrasion under the same load. These preliminary tests then allow for further extensive studies to be conducted before preliminarily designing the bio-inspired earth-burrowing robot. |
| author2 |
Wu Wei (CEE) |
| author_facet |
Wu Wei (CEE) Tan, Annabelle Mei Hwa |
| format |
Final Year Project |
| author |
Tan, Annabelle Mei Hwa |
| author_sort |
Tan, Annabelle Mei Hwa |
| title |
Preliminary design of bio-inspired earth-burrowing robot |
| title_short |
Preliminary design of bio-inspired earth-burrowing robot |
| title_full |
Preliminary design of bio-inspired earth-burrowing robot |
| title_fullStr |
Preliminary design of bio-inspired earth-burrowing robot |
| title_full_unstemmed |
Preliminary design of bio-inspired earth-burrowing robot |
| title_sort |
preliminary design of bio-inspired earth-burrowing robot |
| publisher |
Nanyang Technological University |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/177953 |
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1800916411352088576 |