Tensile properties and morphology of tetrafunctional multigraft copolymers
are investigated dependent on PS volume fraction and number of branch point
s. It is found that tetrafunctional multigraft copolymers with 22 vol % PS
and seven branch points show a surprising high strain at break of about 210
0%, about double that of commercial thermoplastic elastomers (TPE's) such a
s Kraton. With increasing number of branch points, strain at break and tens
ile strength increases, and strain at break is about 2300% for a sample wit
h 10 branch points. Investigation of morphology using transmission electron
microscopy indicates that a sample with 22 vol % PS has a wormlike microph
ase-separated structure with much lower long range order than other TPE's s
uch as Kraton. The multigraft copolymers of this study have two PS arms at
each branch point. This, together with a large number of branch points per
molecule, allows the elastic PI backbone to couple into a large number of r
einforcing PS domains, resulting in huge elasticity, combined with a high t
ensile strength. Two parameters for adjusting mechanical properties of mult
igraft copolymers are found in our investigations: (1) functionality of the
graft copolymer, tri- or tetrafunctional, and (2) number of branch points
per molecule.