In:
Textile Research Journal, SAGE Publications, Vol. 34, No. 9 ( 1964-09), p. 747-754
Abstract:
Stress-strain curves up to the breaking point have been obtained for wook fibers under the following conditions: in water at 0°, 20°, 50°, and 100° C; at 20° C at 0%, 65%, and 100% RH; immersed (from 65% RH) in liquid nitrogen. Measurements were made under each set of conditions at rates of extension of 5%/mm and 500%/mm. Tests were also carried out on medullated fibers and on fibers with notches cut in the side. In water the tensile strength decreased with increasing temperature or with decreas ing rate of extension; the extensibility varied inversely with the tensile strength. At 20° C the effects of increasing the humidity were generally equivalent to increasing the temperature or decreasing the rate of exteasion. In these tests the tensile strength ranged from 3 × 10 8 to 2 X 10 9 dynes/cm 2 , and the extensibility from 36% to 84%. The slopes of each of the three regions of the force-extension curve (Hookean, yield, and post-yield) all varied with temperature, humidity, and rate of extension, although the variation in slope of the post-yield region with humidity was small. The range of moduli observed was from 1.1 × 10 10 to 3.9 × 10 10 dynes cm 2 in the Hookean region ; from 0.19 × 10 8 to 17.5 × 10 8 dynes/cm 2 in the yield region ; and from 1.2 × 10 9 to 4.8 × 10 9 dynes/cm 2 in the post-yield region. The fibers tested in liquid nitrogen behaved like glassy polymers with an extensibility of about 2.5%, a tensile strength of 2.3 × 10 9 dynes cm 2 , and an initial Young's modulus approaching 1011 dynes/cm 2 . Medullated fibers and tibers notched to a depth of as much as one-third of the fiber diameter showed surprisingly little reduction in strength. This is taken as an mdica tion of the presence of a few serious flaws in "normal" fibers.
Type of Medium:
Online Resource
ISSN:
0040-5175
,
1746-7748
DOI:
10.1177/004051756403400902
Language:
English
Publisher:
SAGE Publications
Publication Date:
1964
detail.hit.zdb_id:
2209596-2
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