Size enlargement, forming-type methods 6 8
Size enlargement, history of 2 4
Size enlargement, literature of 20
Size enlargement, selection of methods 18
Size-strength relationship, effect of bond distribution 46
Smith, A.E. 165 175
Smith, H.M. 166 176
Smith, J.C. 135 138
Smith, R.P. 101 122
Smith, W.R. 4 20 21 26 51
Sol-gel process 174
Sparks, B.D. 167 176
Spherical agglomeration see "Agglomeration by immiscible liquid wetting"
Spouted bed granulation of agricultural chemicals, table 157
Spouted bed granulation, comparison with fluid bed process 158
Spouted bed granulation, performance data 158
Spouted bed granulation, process description 156 158
Spray and dispersion methods, flash drying 158
Spray and dispersion methods, fluid bed spray granulation 149ff
Spray and dispersion methods, pneumatic conveying drying 158
Spray and dispersion methods, prilling 145ff
Spray and dispersion methods, spouted bed granulation 156
Spray and dispersion methods, spray drying 139ff
Spray congealing see "Prilling"
Spray cooling see "Prilling"
Spray drying as a size enlargement process 143 144
Spray drying, ceramic powders 144
Spray drying, design information 141ff
Spray drying, dispersion of feed 141 142
Spray drying, droplet size in 140 141
Spray drying, evaporative capacities 142 143
Spray drying, flow patterns in 142
Spray drying, food products 145
Spray drying, product size, typical 140
Spray drying, unit processes of 141
Spray granulation see "Fluid bed spray granulation" "Spouted
Spray solidification see "Prilling"
Stafford, B.J. 101 122
Stevenson, C.L. 34 50
Stevenson, D.G. 7 21
Stirling, H.T. 79 82
Stoltze, A. 57 82 94 96 144 160
Stoops, R.F. 7 9 21 26 51
Strength of agglomerates see also "Bonding mechanisms" "Strength
Strength of agglomerates, correlations of 39 46
Strength of agglomerates, double-cone failure 37
Strength of agglomerates, Rumpf's theoretical model 24
Strength of agglomerates, tensile and compressive strengths, relationship between 36
Strength of agglomerates, theoretical tensile strength 24
Strength of agglomerates, typical values 38 127 128
Strength testing see also "Strength of agglomerates"
Strength testing, abrasion resistance 35
Strength testing, ASTM tumbler test 36
Strength testing, caking tendency 36
Strength testing, compressive testing 34
Strength testing, drop test 35
Strength testing, Linder rotating furnace procedure 36
Strength testing, research and control methods 32
Strength testing, tablet disintegration test 36
Strength testing, tensile testing 32
Stretton, A. 63 82
Sugawara, K. 86 96 126 137
Summer, C.A. 92 93 96
Suppliers of size enlargement equipment 177
Sutherland, J.P. 163 167 175 176
Suzuki, H. 170 171 175
| Swanson, A.R. 168 175
Swartzman, E. 1 4 5 20
Tablet disintegration test 36
Tanaka, S. 170 171 175
Tanaka, T. 62 82
Tensile strength testing see also "Strength testing"
Tensile strength testing, diametral compression tests 34
Tensile strength testing, indirect measurements 33
Tensile strength testing, particle beds 33
Tensile strength testing, preparation of specimen 33
Tensile strength testing, split cell 33
Tensile strength testing, testing machines 32
Thayer, W.L. 163 175
Thermal methods, drum drying 132 134 135 136
Thermal methods, drum flaking 132 135 137
Thermal methods, endless belt systems 135 137
Thermal methods, heat hardening 124 127ff
Thermal methods, induration 124 127ff
Thermal methods, nodulizing 132
Thermal methods, pelletizing 124 127ff
Thermal methods, sintering 123ff
Thompson, C.D. 125 137
Train, D. 4 21 44 51 100 122
Tumbler test, ASTM 36
Tumbling agglomeration 52ff see "Drum
Tumbling agglomeration, briding liquid requirements 55
Tumbling agglomeration, disc agglomerators 64ff
Tumbling agglomeration, disc vs drum agglomerators 80
Tumbling agglomeration, drum agglomerators 73ff
Tumbling agglomeration, effect of agglomerate strength 54
Tumbling agglomeration, equipment 63ff
Tumbling agglomeration, growth mechanisms in 53
Tumbling agglomeration, kinetics of 59
Tumbling agglomeration, maximum feed particle size 54
Tumbling agglomeration, nucleation 52 62 75
Tumbling agglomeration, size distribution of product 63 65 75
Tymchuk, P. 167 176
Umezu, Y. 86 96 126 137
Vagin, A.A. 149 160
Valentin, F.H.H. 33 50
van den Berg, P.J. 145 146 149 160
Van der Waals forces, between two spheres, calculation of 27
van Lookeren Campagne, N. 165 169 170 175
Vanacek, V. 153 160
Vernede, J. 146 148 160
Verschuur, E. 170 175
Vincent, M.W. 94 96
Violetta, D.C. 125 137
Wakeman, J.S. 35 50 131 137
Wall, C.J. 150 154 155 160
Wang, F.F.Y. 40 50
Waters, P.L. 26 40 41 50
Weelock, T.D. 164 175
Wendeborn, H. 127 137
Wild, R. 20 21 26 35 50 65 75 82 86 96 125 129 130 137
Williams, G.H. 7 21
Williams, W.O. 35 50
Wilson, J.P. 134 138
Wong, R.H.T. 167 176
Wood, R. 94 96
Wright, F. 75 77 82
Wurster, D.E. 150 160
Wynnyckyj, J.R. 45 46 51
Yevdokimov, B.G. 151 160
Yusa, M. 170 171 175
Zenz, F.A. 150 153 160
Zuiderweg, F.J. 169 170 176
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