Solid State Behavior of Linear Polyesters and Polyamides |
From inside the book
Results 1-3 of 74
Page 54
temperature and duration , the higher the perfection of crystallites . Such an
improvement of the crystallite structure contributes to an increase in the stress at
break 08 ( 169 - 171 ] . These assumptions seem to be reasonable , because
healing ...
temperature and duration , the higher the perfection of crystallites . Such an
improvement of the crystallite structure contributes to an increase in the stress at
break 08 ( 169 - 171 ] . These assumptions seem to be reasonable , because
healing ...
Page 55
The established fact that higher heat treatment temperatures correspond to
higher interface shear stress values may also be interpreted as “ more numerous
and more stressed contact points increased chemical reactivity . ” The higher the
...
The established fact that higher heat treatment temperatures correspond to
higher interface shear stress values may also be interpreted as “ more numerous
and more stressed contact points increased chemical reactivity . ” The higher the
...
Page 170
The maximum mechanical loss ( loss peak ) is higher with nylon 6 than with nylon
66 . ( b . ) The temperature at the peak loss is higher with nylon 66 than nylon 6 . (
c . ) The slope of the mechanical - loss - temperature curve before and after ...
The maximum mechanical loss ( loss peak ) is higher with nylon 6 than with nylon
66 . ( b . ) The temperature at the peak loss is higher with nylon 66 than nylon 6 . (
c . ) The slope of the mechanical - loss - temperature curve before and after ...
What people are saying - Write a review
We haven't found any reviews in the usual places.
Other editions - View all
Common terms and phrases
achieved acid additional amorphous annealing Appl applied aspect average behavior block bonding changes Chem chemical composites conclusion constant crack crystallinity crystallization curves decreases deformation density depends determined diameter diffusion direction distribution domains draw ratio drawn effect element energy Equation experiments extrusion factor fatigue fiber Figure fracture fracture toughness function given groups growth healing heat higher important increasing indicated initial length linear load lower material matrix maximum measurements mechanical melt method microfibrils microstructure modulus molded molecular weight molecules nylon nylon 66 observed obtained occurs orientation peak phase Phys polyamides polycondensation polyesters Polymer Sci polymerization properties range reaction regions reported Reprinted from Ref respectively samples SAXS scattering shows solid solid state polycondensation solid-state specimen speed stage strain strength stress structure studied Table temperature tensile units values yield