Thermally induced conformational changes that occur in high-density polyethylene (HDPE) crystal were studied by mid-infrared (MIR) spectroscopy. Spectral changes of four conformational "defect mode" bands in 1390-1280 cm(-1) region were observed during the heating up to the melt. The spectra were analyzed by generalized two-dimensional (2D) correlation technique to elucidate correlations in their responses against temperature. Among the conformational defect bands, two bands at 1368 and 1308 cm(-1) have traditionally been assigned to non-planar conformers of gtg' (kink) and gtg. However, the present study shows the intensity increment of the band at 1368 cm(-1) happens at a lower temperature than that of the band at 1308 cm(-1). This finding is in favor of the assignment proposed by Cates et al., in which the 1368 cm(-1) band is assigned to the gtg conformation excluding the involvement of kink. The spectral correlation among the band at 1368 (gtg), 1353 (double-gauche, gg'), and 1341 cm(-1) (end-gauche, eg) has also been studied by 2D correlation analysis. As a result, it was found that the formation of gg' and eg sequences mostly proceeds at a temperature range higher than 115 degrees C. The formation of gtg conformer sequence measured by the band at 1368 cm(-1) apparently proceeds in two steps: the first at a temperature around 70 degrees C and the later one occurring at a temperature very close to T-m. The results of this study make correlation relationships clear in the temperature dependency of MIR bands due to conformational disorder sequences. (C) 2007 Elsevier Ltd. All rights reserved.