| 7 - 8 |
Special issue: Meso- and macropore analysis. Mercury porosimetry and alternative liquid penetration techniques.
Denoyel R, Thommes M |
| 9 - 19 |
Mercury porosimetry: A general (practical) overview
Giesche H |
| 20 - 28 |
Characterization of mineral building materials by mercury-intrusion porosimetry
Rubner K, Hoffmann D |
| 29 - 39 |
Capillary pressure curves of sphere packiugs: Correlation of experimental results and comparison with predictions from a network model of pore space
Dodds JA, Srivastava P |
| 40 - 47 |
Liquid expulsion permporometry - a tool for obtaining the distribution of flow-through pores
Solcova O, Hejtmanek V, Snajdaufova H, Schneider P |
| 48 - 60 |
Domain complexion diagrams related to mercury intrusion-extrusion in Monte Carlo-simulated porous networks
Felipe C, Cordero S, Kornhauser I, Zgrablich G, Lopez R, Rojas F |
| 61 - 71 |
The physical significance of mercury porosity hysteresis in the characterization of calcined precipitated alumina
Carruthers ID |
| 72 - 81 |
Non intrusive mercury porosimetry: Pyrolysis of resorcinol-formaldehyde xerogels
Job N, Pirard R, Pirard JP, Alie C |
| 82 - 93 |
Using nano-cast model porous media and integrated gas sorption to improve fundamental understanding and data interpretation in mercury porosimetry
Rigby SP, Evbuomwan IO, Watt-Smith MJ, Edler K, Fletcher RS |
| 94 - 100 |
Application of mercury porosimetry to predict the porosity and strength of ceramic catalyst supports
Yates M |
| 101 - 106 |
Application of mercury intrusion porosimetry for characterization of combined micro- and mesoporous zeolites
Groen JC, Brouwer S, Peffer LAA, Perez-Ramirez J |
