UPCD: Field trial results and further work
UPCD: Field trial results and further work
The ultrasonic planetary core drill (UPCD) project sought to develop and conduct a field trial, in an analogous Martian environment, of a space-compatible regolith-sampling tool. The project implemented a number of key technologies to achieve this aim: a drilling control loop based on ultrasonic power feedback, a bayonet interface system to allow a drillstring to be built up in situ then disassembled after use, a coring design which captured the cores drilled out, and a mechanism for caching the core samples in sealable containers. The system was demonstrated in the laboratory with results indicating low power, low weight on bit, achievement of the targeted depth, and the retrieval of still-frozen core samples. The routines to allow the system to become fully autonomous were also demonstrated. The drill was deployed to Coal Nunatak on Alexander Island, Antarctica, for analogue trials. The drill was demonstrated to work, as was the caching and drill assembly/disassembly system, but the target depth was not achieved. A review of drill depth is provided along with a laboratory solution to the problems encountered in the field. Further work using the UPCD is also discussed.
297-306
American Society of Civil Engineers
Worrall, K.J.
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Timoney, R.
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Li, Xuan
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Harkness, P.
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Lucas, M.
ee8ce630-e2fe-40a1-a18e-ac14ae70af24
15 November 2018
Worrall, K.J.
d1c5796f-6046-49b6-aa76-d806f8e4088d
Timoney, R.
6898545a-25d2-4656-84aa-290f66906466
Li, Xuan
ed01c0d5-68e0-4abe-8642-5b9ebf153314
Harkness, P.
36083f4e-b72e-46d6-91de-5b813a16dc3b
Lucas, M.
ee8ce630-e2fe-40a1-a18e-ac14ae70af24
Worrall, K.J., Timoney, R., Li, Xuan, Harkness, P. and Lucas, M.
(2018)
UPCD: Field trial results and further work.
In Earth and Space 2018: Engineering for Extreme Environments.
American Society of Civil Engineers.
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
The ultrasonic planetary core drill (UPCD) project sought to develop and conduct a field trial, in an analogous Martian environment, of a space-compatible regolith-sampling tool. The project implemented a number of key technologies to achieve this aim: a drilling control loop based on ultrasonic power feedback, a bayonet interface system to allow a drillstring to be built up in situ then disassembled after use, a coring design which captured the cores drilled out, and a mechanism for caching the core samples in sealable containers. The system was demonstrated in the laboratory with results indicating low power, low weight on bit, achievement of the targeted depth, and the retrieval of still-frozen core samples. The routines to allow the system to become fully autonomous were also demonstrated. The drill was deployed to Coal Nunatak on Alexander Island, Antarctica, for analogue trials. The drill was demonstrated to work, as was the caching and drill assembly/disassembly system, but the target depth was not achieved. A review of drill depth is provided along with a laboratory solution to the problems encountered in the field. Further work using the UPCD is also discussed.
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Published date: 15 November 2018
Venue - Dates:
16th Biennial International Conference on Engineering, Science, Construction, and Operations in Challenging Environments, , Clevemand, United States, 2018-04-09 - 2018-04-12
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Local EPrints ID: 497786
URI: http://eprints.soton.ac.uk/id/eprint/497786
PURE UUID: d967e829-4dc3-4cd4-9f7b-c7bb9cf8de0d
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Date deposited: 31 Jan 2025 17:39
Last modified: 01 Feb 2025 03:20
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Contributors
Author:
K.J. Worrall
Author:
R. Timoney
Author:
Xuan Li
Author:
P. Harkness
Author:
M. Lucas
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