Adhesion of in situ precipitated calcium carbonate in the presence and absence of magnetic field in quiescent conditions on different solid surfaces

Abstract

Deposition of in situ precipitated calcium carbonate from Na 2CO 3 and CaCl 2 solutions on different substrates, i.e. stainless steel, copper, aluminium, and glass, was investigated at different temperatures, 20°C, 40°C, 60°C and 80°C, both in the absence and presence of S–S 0.1 T magnetic field (MF). It was found that in quiescent conditions during 2 h the amounts deposited firmly on the surfaces decreased with increasing temperature. If MF was present the deposition was reduced at all temperatures, and depended on the nature of the substrate. The largest MF effect was found on glass at 60°C, which amounted 50% reduction of the deposit. However, at 80°C no deposition was found in the presence of MF on aluminium surface. At this temperature the reproducibility of the experiments was poor, and an additional effect due to the metal surface corrosion (especially that of aluminium and copper) may be thought in alkaline environment of the experiments (pH ca. 10). Based on optical microscope photographs, it was concluded that the amounts of crystallographic forms of CaCO 3 depended on the nature of substrate on which the precipitation and then the adhesion took place. To some extent the ratios of CaCO 3 forms precipitated were different in the bulk phase than on the substrate surfaces at the same temperature, and this conclusion was based on the X-ray diffractograms. Some possible mechanisms causing MF effects are discussed.