Colloid And Surface Properties Of Clays And Related MineralsDiscusses measuring the surface properties of flat or particulate solids with contact angles of drops of high-energy liquids deposited on solid surfaces or via the thin-layer wicking technique. It focuses on Lifshitz-van der Waals, Lewis acid-base, and electrical double layer interactions. |
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Page vi
... Contact angle measurements are of course easy to perform on , e.g. , flat surfaces of large mineral crystals . With small clay or other mineral particles , however , this is a somewhat different matter . When one has particles of a ...
... Contact angle measurements are of course easy to perform on , e.g. , flat surfaces of large mineral crystals . With small clay or other mineral particles , however , this is a somewhat different matter . When one has particles of a ...
Page vii
... contact angle measurements and thus furnished the experimental proof that the same contact angles would result from either technique ( Costanzo et al . , 1995 ) . 1w1 Interfacial , non - covalent interaction energies between various ...
... contact angle measurements and thus furnished the experimental proof that the same contact angles would result from either technique ( Costanzo et al . , 1995 ) . 1w1 Interfacial , non - covalent interaction energies between various ...
Page xiii
... contact angles Preparation of solid surfaces . . 6.5.1 6.5.2 6.5.3 145 • • 146 . 148 148 • 149 . . . 151 Contact angles measured with liquid 1 , immersed in liquid 2 6.6 Other Approaches to the Interpretation of Contact Angle Data 152 ...
... contact angles Preparation of solid surfaces . . 6.5.1 6.5.2 6.5.3 145 • • 146 . 148 148 • 149 . . . 151 Contact angles measured with liquid 1 , immersed in liquid 2 6.6 Other Approaches to the Interpretation of Contact Angle Data 152 ...
Page 58
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Page 79
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Contents
XCI | 153 |
XCII | 154 |
XCIII | 156 |
XCIV | 159 |
XCVI | 162 |
XCVII | 163 |
XCIX | 165 |
CI | 166 |
XIX | 13 |
XX | 15 |
XXII | 17 |
XXIII | 19 |
XXIV | 20 |
XXV | 21 |
XXVII | 25 |
XXIX | 28 |
XXX | 36 |
XXXI | 39 |
XXXIII | 41 |
XXXIV | 46 |
XXXV | 47 |
XXXVII | 52 |
XXXVIII | 54 |
XXXIX | 60 |
XL | 61 |
XLI | 64 |
XLIII | 66 |
XLIV | 69 |
XLV | 72 |
XLVI | 79 |
XLVII | 81 |
XLIX | 84 |
L | 87 |
LII | 90 |
LIII | 93 |
LIV | 101 |
LVI | 104 |
LVII | 116 |
LVIII | 119 |
LX | 121 |
LXI | 123 |
LXII | 125 |
LXIII | 127 |
LXIV | 129 |
LXV | 130 |
LXVII | 131 |
LXVIII | 132 |
LXX | 133 |
LXXI | 134 |
LXXIII | 135 |
LXXV | 136 |
LXXVI | 137 |
LXXVII | 138 |
LXXVIII | 139 |
LXXIX | 141 |
LXXX | 142 |
LXXXII | 144 |
LXXXIII | 145 |
LXXXIV | 146 |
LXXXV | 148 |
LXXXVI | 149 |
LXXXVII | 151 |
LXXXVIII | 152 |
CII | 167 |
CIII | 168 |
CV | 169 |
CVII | 170 |
CVIII | 172 |
CIX | 173 |
CXI | 175 |
CXIII | 176 |
CXV | 178 |
CXVII | 181 |
CXVIII | 182 |
CXX | 183 |
CXXII | 184 |
CXXIII | 185 |
CXXIV | 186 |
CXXV | 190 |
CXXVI | 191 |
CXXVII | 193 |
CXXVIII | 194 |
CXXIX | 195 |
CXXXI | 202 |
CXXXII | 203 |
CXXXIV | 204 |
CXXXV | 208 |
CXXXVI | 209 |
CXXXVIII | 212 |
CXXXIX | 213 |
CXLI | 214 |
CXLII | 215 |
CXLIII | 216 |
CXLIV | 218 |
CXLVI | 219 |
CXLVII | 220 |
CXLVIII | 221 |
CL | 223 |
CLI | 224 |
CLII | 225 |
CLIII | 226 |
CLIV | 229 |
CLV | 230 |
CLVI | 235 |
CLVII | 239 |
CLVIII | 244 |
CLIX | 248 |
CLX | 251 |
CLXI | 252 |
CLXIII | 253 |
CLXV | 255 |
CLXVI | 256 |
CLXVII | 257 |
CLXVIII | 258 |
CLXIX | 261 |
CLXX | 285 |
Other editions - View all
Colloid And Surface Properties Of Clays And Related Minerals Rossman F. Giese,Carel J. van Oss No preview available - 2002 |
Colloid And Surface Properties Of Clays And Related Minerals Rossman F. Giese,Carel J. van Oss No preview available - 2002 |
Colloid And Surface Properties Of Clays And Related Minerals Rossman F. Giese,Carel J. van Oss No preview available - 2002 |
Common terms and phrases
adhesion adsorbed adsorption aluminum ammonium anions asbestos C-potential cations Central Atom Ligand Chaudhury chemical chrysotile clay minerals clay particles clinographic view closest packed cohesion Colloid Colloid Interface Sci contact angle contact angle measurements coordination density determined dioctahedral DLVO double layer edited electron electrostatic equation Figure flocculation free energy g/cc Giese glycerol Hamaker hectorite hydration hydrogen bonding hydrophilic hydroxyl illite immersed in water interaction energy interatomic distances interlayer cations ionic strength ions iwi iwi kaolinite layer charge Lifshitz-van der Waals Ligand Distance macroscopic materials mica mineral particles mJ/m² molecular monopolar montmorillonite negatively charged octahedral octahedral sheet octahedral sites orientation oxide Oxygen oxygen atoms parameters phyllosilicate polar liquids polymers potential pyrophyllite radius repulsion silicate minerals silicon smectite solid surface solubility solution stability stacking surface properties surface tension surface thermodynamic Surfactants Table talc temperature tetrahedral thin layer wicking values vermiculite water molecules