Noncontact Shrinkage Curve Determination for Soil Clods and Aggregates by Three‐Dimensional Optical Scanning

The classical saran resin method for determination of the soil shrinkage characteristic (SSC) curves based on volume determination of saran‐coated clods is limited by water penetration during submersion, requires correction for the volume of coatings, and does not account for swelling. This study compared a novel noncontact method for SSC curve determination with the classical saran method. Natural, irregularly shaped clods of 18 to 45 g detached from four horizons of a clayey to loamy Chinese paddy soil were capillary saturated to a matric potential of −4 cm. During air drying, the changing clod volume was repeatedly measured by three‐dimensional optical scanning and the water content determined gravimetrically. After resaturation of the same clods, measurements were repeated with the saran method. Optical scanning of clods from various positions resulted in sets of point clouds that required comprehensive data processing. The final three‐dimensional volume objects were generated by adaptive triangulation. When assuming 0.3 to 0.8 g of water penetration for the saran method and a correction to account for a 20 and 18% loss of mass of air‐ and oven‐dry saran coatings, respectively, the SSC curves of the two methods were relatively similar. Spearman's rank correlation coefficient was 0.88 at the 95% confidence level. Errors for the new three‐dimensional method may occur during manual data processing. The new, three‐dimensional optical method is suitable to determine the SSC curve of relatively small, irregularly shaped clods with low to medium shrinkage in a wide range of water contents.