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Heavy minerals of sediment core PL94-60
percentages are recalculated on undetermined-free basis -
Heavy minerals of sediment core PL94-08
percentages are recalculated on undetermined-free basis -
Mineral chemistry data from batch experiments simulating hydrothermal troctol...
*Iron for andradite-grossular solid solutions was calculated as ferric Fe3+1Mg = Mg / (Mg + Fe) 2XCa = Ca / (Ca + Na) 3XFe = Fe / (Fe + Al) -
Mineral chemistry data from batch experiments simulating hydrothermal troctol...
1XMg = Mg / (Mg + Fe)2XCa = Ca / (Ca + Na) *Initial characterization of the reactants -
(Table T2) Major element oxides and mineral composition of dolerites from ODP...
This dataset has no description
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(Table 1) Mineral compositions of volcanic glass interlayers in sediment core...
This dataset has no description
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XRD of Cuttings of the KTB Pilot Hole HB1d
The qualitative and quantitative phase analyses were performed in the KTB field laboratory by x-ray powder diffraction using SIEMENS D 500 diffractometer. During early stages of... -
XRD of Cores of the KTB Main Hole HB1a
The qualitative and quantitative phase analyses were performed in the KTB field laboratory by x-ray powder diffraction using SIEMENS D 500 diffractometer. During early stages of... -
XRD of Cuttings of the KTB Pilot Hole VB1a
The qualitative and quantitative phase analyses were performed in the KTB field laboratory by x-ray powder diffraction using SIEMENS D 500 diffractometer. During early stages of... -
XRD of Cuttings of the KTB Main Hole HB1h
The qualitative and quantitative phase analyses were performed in the KTB field laboratory by x-ray powder diffraction using SIEMENS D 500 diffractometer. During early stages of... -
XRD of Cuttings of the KTB Pilot Hole VB1
The qualitative and quantitative phase analyses were performed in the KTB field laboratory by x-ray powder diffraction using SIEMENS D 500 diffractometer. During early stages of... -
XRD of Cuttings of the KTB Pilot Hole VB1b
The qualitative and quantitative phase analyses were performed in the KTB field laboratory by x-ray powder diffraction using SIEMENS D 500 diffractometer. During early stages of... -
XRD of Cores of the KTB Main Hole HB1d
The qualitative and quantitative phase analyses were performed in the KTB field laboratory by x-ray powder diffraction using SIEMENS D 500 diffractometer. During early stages of... -
XRD of Cores of the KTB Main Hole HB1
The qualitative and quantitative phase analyses were performed in the KTB field laboratory by x-ray powder diffraction using SIEMENS D 500 diffractometer. During early stages of... -
XRD of Cuttings of the KTB Pilot Hole HB1
The qualitative and quantitative phase analyses were performed in the KTB field laboratory by x-ray powder diffraction using SIEMENS D 500 diffractometer. During early stages of... -
XRD of Cores of the KTB Main Hole HB1i
The qualitative and quantitative phase analyses were performed in the KTB field laboratory by x-ray powder diffraction using SIEMENS D 500 diffractometer. During early stages of... -
XRD of Cuttings of the KTB Main Hole HB1i
The qualitative and quantitative phase analyses were performed in the KTB field laboratory by x-ray powder diffraction using SIEMENS D 500 diffractometer. During early stages of... -
XRD of Cores of the KTB Pilot Hole VB1
The qualitative and quantitative phase analyses were performed in the KTB field laboratory by x-ray powder diffraction using SIEMENS D 500 diffractometer. During early stages of... -
XRD of Cuttings of the KTB Pilot Hole HB1a
The qualitative and quantitative phase analyses were performed in the KTB field laboratory by x-ray powder diffraction using SIEMENS D 500 diffractometer. During early stages of... -
XRD of Cuttings of the KTB Pilot Hole HB1g
The qualitative and quantitative phase analyses were performed in the KTB field laboratory by x-ray powder diffraction using SIEMENS D 500 diffractometer. During early stages of...