Fourier transform infrared spectrometric determination of polyethylene glycol in high-density polyethylene
Abstract
A direct infrared method using Fourier transform infrared spectrometry has been developed for rapidly determining the low relative molecular mass polyethylene glycol (PEG), Carbowax 400, in high relative molecular mass, high-density polyethylene. The PEG analytical band at 1110 cm–1, due to the C—O—C linkage, is first isolated from the overlapping polyethylene bands by spectral subtraction; the integrated absorbance (1000–1170 cm–1) per unit thickness then gives a measure of the PEG concentration in the resin. The method eliminates the tedious and time consuming solvent extraction of PEG from polyethylene. The detection limit is about 0.02% m/m, and the analysis time is 10 min excluding sample preparation which involves melt-pressing the sample into 0.25–0.38 mm plaques. The speed and simplicity of the analysis make the method suitable for quality control laboratories.