The phase content of a low-density polyethylene was studied by analysis of
the CH2 rocking vibrations in non-oriented films prepared from the press (P
-films) or from solution (S-films). Spectral simulations of the transmissio
n spectra give the mass fractions of the orthorhombic phase alpha(ortho), a
nd of two noncrystalline phases (monoclinic-like and amorphous). The values
of alpha(ortho) are compared to alpha(ortho), (i) where (i) stands for the
X-ray diffraction, density, and DSC techniques. New results are obtained c
oncerning the orthorhombic order and the change of phase content with aging
. A two-phase analysis is justified for non-aged films containing a small a
mount of the monoclinic-like phase. The values of alpha(ortho) (IR) are lar
ger than alpha(ortho) (i), the difference ranging between 0.12 and 0.43. Th
e difference is a measure of the short-range order. alpha(ortho), (IR) can
reach 0.73 for the S-films. The stability of the short-range order phase is
investigated. The sample is also analyzed using the trace of slow calorime
try. The difference between alpha(ortho) by DSC and by slow calorimetry is
a measure of strainable order. During aging, the variation in the phase con
tent is large for the noncrystalline phases (in content and frequency) and
small for the orthorhombic. The increase of the monoclinic-like phase durin
g aging suggests that iris a precursor of the more stable orthorhombic orga
nization. The quantification of two noncrystalline phases on fresh and aged
films clarifies some ambiguity found in the literature about the monoclini
c-like phase and the localization of bands in the rocking region for sample
characterization. Analysis of other regions of the spectrum is needed to c
onfirm the present results.