Polymer FractionationManfred J. R. Cantow |
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Page 251
... Heterogeneity . C. Archibald Method ... MIDLAND , MICHIGAN 251 .252 .255 .258 .258 .264 .274 V. Sedimentation Equilibrium . .276 A. Average Molecular Weights .. ..277 B. Polymer Heterogeneity ... .278 C. Time Required to Reach ...
... Heterogeneity . C. Archibald Method ... MIDLAND , MICHIGAN 251 .252 .255 .258 .258 .264 .274 V. Sedimentation Equilibrium . .276 A. Average Molecular Weights .. ..277 B. Polymer Heterogeneity ... .278 C. Time Required to Reach ...
Page 258
... heterogeneity . This heterogeneity is recognized by the progressive spreading of the concentration gradient boundary as it traverses the ultracentrifuge cell . Although visual inspection of this boundary spreading can given qualitative ...
... heterogeneity . This heterogeneity is recognized by the progressive spreading of the concentration gradient boundary as it traverses the ultracentrifuge cell . Although visual inspection of this boundary spreading can given qualitative ...
Page 258
... heterogeneity . This heterogeneity is recognized by the progressive spreading of the concentration gradient boundary as it traverses the ultracentrifuge cell . Although visual inspection of this boundary spreading can given qualitative ...
... heterogeneity . This heterogeneity is recognized by the progressive spreading of the concentration gradient boundary as it traverses the ultracentrifuge cell . Although visual inspection of this boundary spreading can given qualitative ...
Contents
PREFACE | 3 |
Fractionation Theory | 10 |
Fractionation Efficiency | 27 |
Copyright | |
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Common terms and phrases
according acetate addition amount applied approximation average average molecular weight calculated cell Chem chemical chromatography coefficient column components composition concentration constant containing copolymers curve dependence described determined diffusion discussed distribution curve effect efficiency elution equation equilibrium example experimental experiments Extraction flow fractionation function give given gradient higher increasing inhomogeneity initial integral light limited liquid lower Makromol material means measurements methacrylate method MICHIGAN mixture molecular weight distribution molecules Nature nonsolvent observed obtained operating parameters particles phase Phys plot polydispersity polyethylene Polymer Sci polymerization polystyrene polyvinyl possible precipitation prepared present procedure range ratio Reference relation respect sample sedimentation separation shown shows solubility solution solvent structure Styrene Table technique temperature theoretical theory tion titration turbidimetric turbidity usually values viscosity volume