Solid state behavior of linear polyesters and polyamides |
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Page 191
Under this circumstance, the drawing stress and the yield temperature should be
a unique function of each other. To characterize a drawing process in terms of the
filament temperature, filament stress and local filament draw ratio, the ...
Under this circumstance, the drawing stress and the yield temperature should be
a unique function of each other. To characterize a drawing process in terms of the
filament temperature, filament stress and local filament draw ratio, the ...
Page 200
Jerold M. Schultz, Stoĭko Fakirov. the maximum temperature allowable to keep
fiber strength above 9 gpd increases with the increasing draw ratio. A plot of final
strengths vs. yield temperatures is given in Figure 44. Comparing the plot with
that ...
Jerold M. Schultz, Stoĭko Fakirov. the maximum temperature allowable to keep
fiber strength above 9 gpd increases with the increasing draw ratio. A plot of final
strengths vs. yield temperatures is given in Figure 44. Comparing the plot with
that ...
Page 325
... 301, 302 Wide-Angle X-ray Scattering (see WAXS) X-ray Scattering (see
WAXS) X-ray Scattering, Small Angle (see SAXS) Yield Characteristic Curve, 192
-194 Yield Stress, 238-241 Yield Temperature, 190, 191, 200 Zone Annealing,
123, ...
... 301, 302 Wide-Angle X-ray Scattering (see WAXS) X-ray Scattering (see
WAXS) X-ray Scattering, Small Angle (see SAXS) Yield Characteristic Curve, 192
-194 Yield Stress, 238-241 Yield Temperature, 190, 191, 200 Zone Annealing,
123, ...
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Contents
SUMMARY | 1 |
TRANSREACTIONS AND POSTADDITIONAL | 19 |
CHEMICAL HEALING | 43 |
Copyright | |
18 other sections not shown
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Common terms and phrases
acid additional solid amorphous annealing Appl aspect ratio behavior birefringence block temperature chain Chem composites condensation copolyester copolymer courtesy crystallinity crystallization curves decrease deformation degree of crystallinity density diameter diffusion domains draw ratio Droscher effect Equation exchange reactions extrusion temperature Fakirov fiber axis fibers drawn filament fracture mechanics fracture toughness function heated element higher increase initial kinetics linear polycondensates load macromolecules Makromol material matrix maximum measurements mechanical melting point microfibrils microstructure modulus molded molecules morphology Nelon nominal draw ratio noncrystalline nylon 6 fibers nylon 66 obtained orientation parameters peak PET fibers phase Phys Plastic poly polyamides polyesters Polymer Sci polymerization properties Reprinted from Ref samples SAXS Schultz semicrystalline shown in Figure solid state polycondensation solid state post-polycondensation solid state reactions Solid-state extrusion specimen spherulite spinning strength stress structure Table tensile terephthalate thermoplastics toughened transesterification transreactions values x-ray yield Zachmann
Bibliographic information
| Title | Solid state behavior of linear polyesters and polyamides Prentice Hall international series in the physical and chemical engineering sciences Prentice Hall International Series in the Physical and Chemi |
| Authors | Jerold M. Schultz, Stoĭko Fakirov |
| Editors | Jerold M. Schultz, Stoĭko Fakirov |
| Contributor | Jerold M. Schultz |
| Edition | illustrated |
| Publisher | Prentice Hall, 1990 |
| Original from | the University of Michigan |
| Digitized | 15 Dec 2007 |
| ISBN | 0138247315, 9780138247317 |
| Length | 325 pages |
| Subjects | › › Polyesters Polyimides Science / Chemistry / Inorganic Technology & Engineering / Chemical & Biochemical Technology & Engineering / Material Science Technology & Engineering / Textiles & Polymers |
| Export Citation | BiBTeX EndNote RefMan |