Fig. 4. The OH-region of the infra-red spectra of smectite and smectite-like samples from Reykjanes. a) Sample dried at 90 °C. b) Sample heated at 400 °C. Minerals 1 Smectite................ 2 Smectite................ 3 Smectite and “swelling chlorite 5” ........... 4 Smectite and swelling chlorite 4 ............ Drill- Depth hole m 4 218 8 20 8 950 4 776 Mynd 4. Gleypni nokkurra smektitsýna í inn- rauða litrófinu. chlorite (Hayashi and Oinuma, 1967). The peaks are however often poorly defined. Heat- ing of the chloritic samples up to 400 °C has either no effect on the spectra or it rather improves the absorption peaks. After heating at 550 °C the peaks have disappeared, but a low, broad and poorly defined peak at slightly lower frequency can be distinguished. The samples investigated contained mainly “therm- ally stable” chloritic minerals. Where tlie samples contain “thermally instable chlorites” those are in minor amounts. The similarities of the spectra show that the crystallographic structure of all the chloritic minerals and their chemical composition are very similar. This is in accordance with the results from the DTA analyses. In the spectral region 400—1300 cm4 only one of the investigated samples shows a typical smectite pattern. The others show pat- terns intermediate between smectite and chlo- rite. Comparison with DTA shows those samples to be more interlayered by chloritic layers. “Chlorite 5” is similar to the interlayered smectite samples. The spectra of the mixed- layer minerals are indiscernable from the chlorites. As found for the OH-region the spectra of the chlorites are fairly similar to spectra of Fe-rich chlorites (Hayashi and Oin- uma, 1965). Where the chlorites are admixed to smectites or “chlorite 5” the intensity of the 640—660 cm-1 absorption band tends to be lower and the pattern more similar to the inter- layered smectites. THE CHEMICAL COMPOSITION OF THE ALTERED ROCKS The clay minerals make up 50—80% of the rocks drilled into. Compositional variations of the clay minerals woulcl therefore certainly be reflected in the total chemistry of the rocks. Similarly major changes in the rock composi- tion would certainly affect the clay minerals. Some few chemical analyses of the altered basaltic rocks are shown in Table 2. As seen from the table the major difference between the hyaloclastic rocks and the basalts is that the hyaloclastites are highly hydrated. The altered basalts are also more hydrated than fresh basalts normally are. The FeO has not been determined and only total iron is given. JÖKULL 26. ÁR 35

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