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Moisture and density (MAD) measured on IODP Hole 365-C0010D
This dataset has no description
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Moisture and density (MAD) measured on IODP Hole 365-C0010C
This dataset has no description
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Physical properties of sediment core GeoB17705-1
This dataset has no description
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Moisture and density (MAD) measurements from IODP Hole 348-C0002N
Geocode = Top Depth DSF, MSF, WSF and CSF-A [m] -
Moisture and density (MAD) measurements from IODP Hole 348-C0002M
Geocode = Top Depth DSF, MSF, WSF and CSF-A [m] -
Moisture and density (MAD) measurements from IODP Hole 348-C0002P
Geocode = Top Depth DSF, MSF, WSF and CSF-B [m, CMP] -
(Table 1) Physical properties of sediments at DSDP Holes 69-504 and 69-505
Values of physical properties measured in the upper sections of sediment cores recovered at Sites 504 and 505 exhibit a remarkable similarity. Below a depth of 145 m Site 504... -
Moisture and density (MAD) measured on IODP Hole 319-C0009A
'DEPTH, sediment': Depth labeled with Leg, Site and Hole only (e.g. 319-C0009A) corresponds to 'Top/Bottom Mud depth below sea floor'. Depth labeled with complete core labels... -
MSCL measurements from IODP Hole 319-C0009A
Update on 2018-01-19: Parameter 'Susceptibility, volume' has been converted from [10-5 SI] to [10-6 SI]. All values were previously given in the wrong unit. -
Physical properties measurements with GEOTEK Multi-Sensor Core Logger of Hole...
This dataset has no description
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Physical properties measurements with GEOTEK Multi-Sensor Core Logger of Hole...
This dataset has no description
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Physical properties measurements with GEOTEK Multi-Sensor Core Logger of Hole...
This dataset has no description
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Physical properties measurements with GEOTEK Multi-Sensor Core Logger of Hole...
This dataset has no description
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(Table 1) Geotechnical stratigraphic units of ODP Hole 120-751A
This dataset has no description
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Porosity of Mini Cores (Plugs) of the KTB Main Hole HB1a
The porosity was determined using the most common Archimedian method (Schopper, 1982). It is based on the following three weight determinations of the sample: (1) The samples... -
Porosity of Mini Cores (Plugs) of the KTB Main Hole HB1
The porosity was determined using the most common Archimedian method (Schopper, 1982). It is based on the following three weight determinations of the sample: (1) The samples... -
Porosity of Mini Cores (Plugs) of the KTB Pilot Hole VB1
The porosity was determined using the most common Archimedian method (Schopper, 1982). It is based on the following three weight determinations of the sample: (1) The samples... -
Porosity of Mini Cores (Plugs) of the KTB Main Hole HB1i
Therefore, at room temperature and under vacuum the samples were submerged in destilled water for at least 24 hours. Afterwards atmospheric pressure was applied for at least 24... -
Porosity of Mini Cores (Plugs) of the KTB Pilot Hole VB1a
The porosity was determined using the most common Archimedian method (Schopper, 1982). It is based on the following three weight determinations of the sample: (1) The samples... -
Porosity of Mini Cores (Plugs) of the KTB Main Hole HB1g
The porosity was determined using the most common Archimedian method (Schopper, 1982). It is based on the following three weight determinations of the sample: (1) The samples...
