A study of the effect of igneous intrusions on the structure of an Australian high voltage bituminous coal

Samples of heat affected coal taken near two igneous intrusions (dykes) in the Victoria Tunnel Seam of the Newcastle Coalfield have been investigated by chemical analysis, petrography, Fourier transform infrared spectroscopy and solid state¹³C NMR spectroscopy. Visual inspection of the seam near the intrusion showed four distinct zones. These have been called, in order of increasing distance from the dyke, the massive cinder, the banded cinder, heat affected coal and apparently unaffected coal. The samples show an increase in structural change as the distance from the dyke decreases, with the samples taken from the massive cinder nearest the dyke being classified as semicokes.FTIR and¹³C NMR results, together with the results of dipolar dephasing NMR experiments, suggest that the predominant structural change in the heat affected zone is replacement of aromatic ethers and/or phenols with hydrogen, leading to an increase in proton aromaticity. Closer to the intrusion, bond rupture leads to a marked loss of aliphatic groups, while in the most affected region adjacent to the dyke aromatic crosslinking has also occurred to form coke-like material.