Science and Technology of Fibers and Related Materials: Proceedings of the Fiber Society 50th Anniversary Technical Conference Held in Princeton, New Jersey, August 19-23, 1990Ludwig Rebenfeld |
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Page 232
... fibers have a BOS of about 8 % [ 2 ] , which is close to that of the fibers spun with LIB at temperatures above 100 ° C . Tenacity and breaking elongation of fibers spun from 0.57 IV PET are plotted vs. LIB temperature in Figure 6 ...
... fibers have a BOS of about 8 % [ 2 ] , which is close to that of the fibers spun with LIB at temperatures above 100 ° C . Tenacity and breaking elongation of fibers spun from 0.57 IV PET are plotted vs. LIB temperature in Figure 6 ...
Page 234
... fiber tenacity and elongation at break with take - up velocity for 0.95 IV PET fibers spun with LIB are shown in Figure 9. Similar to the change of birefringence , the tenacity of the LIB spun fibers increases almost linearly with spinning ...
... fiber tenacity and elongation at break with take - up velocity for 0.95 IV PET fibers spun with LIB are shown in Figure 9. Similar to the change of birefringence , the tenacity of the LIB spun fibers increases almost linearly with spinning ...
Page 239
... fibers spun with different liquid depths are shown in Figure 14. At each given depth of liquid , the tenacity increases almost linearly with spinning speed . At each given take - up speed , the fiber spun with a liquid depth of 10 cm at ...
... fibers spun with different liquid depths are shown in Figure 14. At each given depth of liquid , the tenacity increases almost linearly with spinning speed . At each given take - up speed , the fiber spun with a liquid depth of 10 cm at ...
Contents
Technological Developments in ManMade Fibers and Related | 33 |
Morphology and Near T Behavior of High Performance Ultrahigh | 67 |
Properties Structures and Temperature Limitations | 87 |
Copyright | |
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1991 John Wiley 3-D braided acrylic fiber alginate fiber amorphous analysis angle Applied Polymer Symposium as-spun axial behavior bending recovery benzyl alcohol birefringence blend break carbon fibers cellulose chain compression contact angle cotton fibers crystalline crystallization curve decrease deformation density determined developed diameter distribution DMDHEU draw ratio dye diffusion effect elongation energy experimental fabric failure fiber length fibers spun filament finish fraction heat treatment impact increase Kevlar liquid m/min material matrix measured mechanical properties modulus molecular molecules nylon obtained orientation parameters PET fibers polyester polyester fibers Polymer Symposium 47 preforms recovery length sample Scanning shape parameter shear shown in Figure shrinkage silicon carbide solvent specimen Spectra composite spinneret spinning speed strain rate stress structure surface Table take-up tenacity tensile strength tension Text textile thermal treated twist UHMWPE untreated values variability viscosity wettability X-ray diffraction yarn yarn strength