The physical properties and dry-milling characteristics of six low-tem
perature-dried, high-oil maize (corn) hybrids (HOC) were evaluated and
compared to three regular yellow dent hybrids (YDC) representing a ra
nge of endosperm hardness that were not selected for dry-milling chara
cteristics. The test weights, true densities, and 100-kernel weights o
f the six HOC hybrids ranged from 732.8 to 758.6 kg/m(3), 1.272 to 1.2
91 g/cm(3), and 26.6 to 28.2 g, respectively (12.5% mc). Test weights
and densities for HOC were higher than for two of the three YDC hybrid
s, 100-kernel weights were lower than all three YDC hybrids. The HOC h
ybrids had higher test weights and true densities than two of the YDC
hybrids. The HOC hybrids had higher prime grit yield, milling evaluati
on factors, and oil yields than the YDC. The flaking grit yield and mi
lling evaluation factor (MEF3) increased, and the pericarp yield decre
ased with increasing test weight of the HOC. The dry mill products of
the HOC had higher crude fat and crude fiber contents, but lower ash c
ontents than those of the YDC. The germ and pericarp fractions of the
HOC had lower crude protein contents than those of the YDC. The HOC hy
brids tested resulted in high grit yields but also high oil content in
the grit fractions. Unless the source of the higher oil content in th
e grits can be elucidated and corrected, the HOC hybrids tested would
not be satisfactory for most dry-milling applications.