GTBL042-08 GTBL042-Callister-v3 October 4, 2007 11:51
2nd Revised Pages280 • Chapter 8 / Deformation and Strengthening MechanismsIn most vulcanizing reactions, sulfur compounds are added to the heated elastomer;
chains of sulfur atoms bond with adjacent polymer backbone chains and crosslink
them, which is accomplished according to the following reaction:(8.12)
C
H
H
C
CH 3
C
H
C
H
H
C
H
H
C
(m n) S (S)m (S)nCH 3
C
H
C
H
H
C
H
H
C
CH 3
C
H
C
H
H
C
H
H
C
CH 3
C
H
C
H
H
in which the two crosslinks shown consist ofmandnsulfur atoms. Crosslink main
chain sites are carbon atoms that were doubly bonded before vulcanization but, after
vulcanization, have become singly bonded.
Unvulcanized rubber, which contains very few crosslinks, is soft and tacky and
has poor resistance to abrasion. Modulus of elasticity, tensile strength, and resistance
to degradation by oxidation are all enhanced by vulcanization. The magnitude of the
VMSEPolymers/
Rubbermodulus of elasticity is directly proportional to the density of the crosslinks. Stress–
strain curves for vulcanized and unvulcanized natural rubber are presented in Figure
8.31. To produce a rubber that is capable of large extensions without rupture of
the primary chain bonds, there must be relatively few crosslinks, and these must be
widely separated. Useful rubbers result when about 1 to 5 parts (by weight) of sulfur
are added to 100 parts of rubber. This corresponds to about one crosslink for every
10 to 20 repeat units. Increasing the sulfur content further hardens the rubber and
also reduces its extensibility. Also, since they are crosslinked, elastomeric materials
are thermosetting in nature.Stress (103 psi)1086420 0
050604030201012345 6
StrainStress (MPa) VulcanizedUnvulcanizedFigure 8.31 Stress–
strain curves to 600%
elongation for
unvulcanized and
vulcanized natural
rubber.