@article{gledocs_11858_8877, author = {Velandia, Juan S. and Bansmer, Stephan E.}, title = {Detailed atmospheric ice accretion surface measurement using micro-computed tomography}, year = {2020}, volume = {21}, number = {10}, abstract = {Surfaces exposed to atmospheric cold temperature and humid environments are prone to ice accretion. Airplanes, electrical power transmission cables, and wind turbines are typical examples for which icing has to be considered. The measurement of the resulting ice shapes is a challenging process. While macroscopic characteristics of the ice geometry can be observed using photography and optical scanning techniques, microscopic measurements are difficult to conduct because grooved surface partially occludes the geometry of chasms. To overcome this optical inaccessibility, we propose a method to carry out detailed high-resolution measurements of the accretion surface with micro-computed tomography. This approach provides a unique visualization of the empty spaces in the feather region. The information obtained by this technique can improve the understanding of ice accretion physics and its computational modeling.}, note = { \url {http://resolver.sub.uni-goettingen.de/purl?gldocs-11858/8877}}, }