Precise interpretation of mercury intrusion data is only possible for cylindrical pores. Nevertheless reproducible data can be obtained which compare well with results on cylindrical pores from independent image analysis experiments. The effect of the compressibility correction is shown to be small
Limitations and corrections for the application of mercury intrusion porosimetry (MIP) in measuring ...
Porosity measurements using both mercury intrusion and helium pycnometric methods are reported for s...
ABSTRACT Mercury porosimetry is often used to characterize the pore (throat) size distribution of po...
Precise interpretation of mercury intrusion data is only possible for cylindrical pores. Nevertheles...
Precise interpretation of mercury intrusion data is only possible for cylindrical pores. Nevertheles...
Precise interpretation of mercury intrusion data is only possible for cylindrical pores. Nevertheles...
Precise interpretation of mercury intrusion data is only possible for cylindrical pores. Nevertheles...
Precise interpretation of mercury intrusion data is only possible for cylindrical pores. Nevertheles...
Mercury intrusion porosimetry is a suitable technique to determine pore size, particle size as well ...
Mercury intrusion porosimetry (MIP) measurements are widely used to determine pore throat size distr...
Many petrophysical properties of tight rocks, such as permeability and electrical resistivity, are v...
Mercury intrusion porosimetry (MIP) measurements are widely used to determine pore throat size distr...
Many petrophysical properties (e.g. permeability, electrical resistivity etc.) of tight rocks are ve...
Many petrophysical properties of tight rocks, such as permeability and electrical resistivity, are v...
The typical approach to analysing raw data, from common pore characterization methods such as gas so...
Limitations and corrections for the application of mercury intrusion porosimetry (MIP) in measuring ...
Porosity measurements using both mercury intrusion and helium pycnometric methods are reported for s...
ABSTRACT Mercury porosimetry is often used to characterize the pore (throat) size distribution of po...
Precise interpretation of mercury intrusion data is only possible for cylindrical pores. Nevertheles...
Precise interpretation of mercury intrusion data is only possible for cylindrical pores. Nevertheles...
Precise interpretation of mercury intrusion data is only possible for cylindrical pores. Nevertheles...
Precise interpretation of mercury intrusion data is only possible for cylindrical pores. Nevertheles...
Precise interpretation of mercury intrusion data is only possible for cylindrical pores. Nevertheles...
Mercury intrusion porosimetry is a suitable technique to determine pore size, particle size as well ...
Mercury intrusion porosimetry (MIP) measurements are widely used to determine pore throat size distr...
Many petrophysical properties of tight rocks, such as permeability and electrical resistivity, are v...
Mercury intrusion porosimetry (MIP) measurements are widely used to determine pore throat size distr...
Many petrophysical properties (e.g. permeability, electrical resistivity etc.) of tight rocks are ve...
Many petrophysical properties of tight rocks, such as permeability and electrical resistivity, are v...
The typical approach to analysing raw data, from common pore characterization methods such as gas so...
Limitations and corrections for the application of mercury intrusion porosimetry (MIP) in measuring ...
Porosity measurements using both mercury intrusion and helium pycnometric methods are reported for s...
ABSTRACT Mercury porosimetry is often used to characterize the pore (throat) size distribution of po...
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