The effect of frying on the microstructure of frozen battered squid rings w
as studied by means of scanning electron microscopy and low temperature sca
nning electron microscopy. It was observed that many microstructural modifi
cations take place in the food substrate - squid - and in the layer of batt
er. In the fibres of squid that has been battered. frozen and fried, the ce
ntral sarcoplasm is still visible but altered by coagulation of the sarcopl
asmic proteins; the fibres of the muscle tissue also become more closely pa
cked during the frying process, owing to loss of interfibrillar water by ev
aporation. It is seen that absorption of fat during frying which may be mor
e than 40% (w/w) - takes place not only in the layer of batter but also in
the squid ring: the fat also draws other components of the batter, such as
starch, to the denatured squid surface. After the final frying process, gas
cells, formed by release of the gases generated, and consolidation of the
microstructural components of the coagulated batter are observed. The struc
ture of the solid fried batter matrix is basically formed by proteins and s
tarch granules.