Published October 11, 2023
| Version v1
Dataset
Open
IODP Expedition 391 Thermal conductivity
Authors/Creators
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Sager, William
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Hoernle, Kaj
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Höfig, Tobias W.
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Avery, Aaron J.
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Bhutani, Rajneesh
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Buchs, David M.
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Carvallo, Claire A.
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Class, Cornelia
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Dai, Yuhao
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Dalla Valle, Giacomo
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Del Gaudio, Arianna V.
- Fielding, Sharmonay
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Gaastra, Kevin M.
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Han, Seunghee
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Homrighausen, Stephan
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Kubota, Yusuke
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Li, Chun-Feng
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Nelson, Wendy R.
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Petrou, Ethan
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Potter, Katherine E.
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Pujatti, Simone
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Scholpp, Jesse
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Shervais, John W.
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Thoram, Sriharsha
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Tikoo-Schantz, Sonia M.
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Tshiningayamwe, Mbili
- Wang, Xiao-Jun
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Widdowson, Mike
Contributors
Data collector:
Description
Thermal conductivity was measured using the heated needle method in either full-space needle configuration (soft/saturated sediments) or half-space needle configuration (harder materials) of a TeKa Berlin TK-04 thermal conductivity meter. Heat is applied to the sample and then thermal equilibrium is sought. The heating and equilibration curve is reduced to derive the thermal conductivity value. Raw data are stored if a user wishes to do off-line or postexpedition reduction.
Files
TCON-README.txt
Additional details
Related works
- Is documented by
- Publication: 10.14379/iodp.proc.391.2023 (DOI)
Funding
- U.S. National Science Foundation
- Management and Operations of the JOIDES Resolution as a Facility for the International Ocean Discovery Program (IODP) 1326927