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 16
... melting point the entropy will be high , and the material will be soft because the segments in register will be in a state of dynamic equilibrium , but at lower temperatures it will be a firmly bonded semi - crystalline solid . A more ...
... melting point the entropy will be high , and the material will be soft because the segments in register will be in a state of dynamic equilibrium , but at lower temperatures it will be a firmly bonded semi - crystalline solid . A more ...
Page 29
... point should be at- tempts to apply what we know about polymer conformations in the melt and follow this through the ... melting points of fibers , and , as with Penrose , quantum effects are invoked at this level of molecular assembly ...
... point should be at- tempts to apply what we know about polymer conformations in the melt and follow this through the ... melting points of fibers , and , as with Penrose , quantum effects are invoked at this level of molecular assembly ...
Page 505
... Melting point ( ° C ) 343 With the matrix already mixed in the yarn bundle , the commingled yarns were fabricated into 3 - D net shape braided preforms at the Fibrous Materials Research Laboratory at Drexel University . Figure 3 ...
... Melting point ( ° C ) 343 With the matrix already mixed in the yarn bundle , the commingled yarns were fabricated into 3 - D net shape braided preforms at the Fibrous Materials Research Laboratory at Drexel University . Figure 3 ...
Contents
Technological Developments in ManMade Fibers and Related | 33 |
Morphology and Near Tm Behavior of High Performance Ultrahigh | 67 |
Properties Structures and Temperature Limitations | 87 |
Copyright | |
22 other sections not shown
Common terms and phrases
amorphous analysis angle appear Applied assumed behavior bending birefringence blend braided break calculated carpet compared composite compression constant cotton crystalline crystallization curve decrease deformation density dependence described determined developed diameter diffusion direction discussed distance distribution draw effect energy experimental extension fabric factor failure fiber filament finish force fraction function geometry given heat higher impact improved increase indicated initial length liquid load lower m/min material measured mechanical method modulus nylon observed obtained occur orientation parameters phase polyester polymer possible present pressure produced properties range ratio recovery relative sample Scanning shape shear shown in Figure shows solution specimen Spectra speed spinning spun strain strength stress structure surface Table temperature tenacity tensile Text treated treatment twist unit values variability yarn