Cf. Lee et al., Synthesis and physical properties of the crosslinking poly(butyl acrylate)/polystyrene core-shell composite latex, POLYM J, 32(8), 2000, pp. 629-636
Butyl acrylate and styrene were used as monomers in the first stage and sec
ond stage respectively, and potassium persulfate (K2S2Os), as the initiator
to synthesize the polymer/polymer composite latex by two-stage soapless em
ulsion polymerization. In the first stage, the poly(butyl acrylate) with cr
osslinking structure (PBA(XL)) was synthesized to be the seed latex. In the
second stage, the styrene was polymerized in the presence of PBA(XL) seeds
to form the PBA(XL) / PS composite latex. The morphology of the composite
latex was observed by transmission electron microscopy (TEM) and showed tha
t composite latex particles were with core-shell structure. The particle si
ze distribution of the composite latex was very uniform. The kinetics of re
action of the second stage polymerization were investigated. The results sh
owed that the reaction rate would be influenced by the degree of crosslinki
ng of the PBA(XL) seeds, initiator concentration and agitation speed. The c
omponents of the PBA(XL)/PS composite polymers were measured by thin-layer
chromatographic (TLC) analysis. The results showed a thin layer of PBA-graf
t-PS copolymer between the core (PBA) and shell (PS) region. The morphology
of the PBA(XL)/PS composite polymers, processed under heat and pressure, w
as observed by transmission electron microscope (TEM). The morphology may c
hange gradually with increase of processing time. The mechanical properties
and rheological properties of the composite polymers were investigated.