The speed at which it changes color and the final depth of tone for each copper bathtub will differ and is greatly influenced by the amount and type of use it receives and by the prevailing weather patterns in your particular geographical location. It begins its journey with a pinkish, salmon-like hue and very gradually darkens in color as it passes through a progression of russet browns until it finally stabilizes to a deep, rich tone. This is also the primary reason why a pure Copper Bathtub becomes more beautiful with age! When left untreated, copper interacts with its environment and naturally deepens in color and tone over time. This unique characteristic sets copper apart from most other metals. Mother Nature has given copper a seemingly magical quality known as a ‘ living finish’. Ostrava - město.Description Happy Client’s Instagram Post Copper Bathtub Copper Interior & Blue-Green Patina Exterior Finish Bures, R., et al., Artificial Patination of Copper and Copper Alloys in Wet Atmosphere with Increased Content of SO 2. Leygraf, C., A study of copper runoff in an urban atmosphere. Guadagnini, L., et al., The use of scanning electrochemical microscopy for the characterisation of patinas on copper alloys. Constantinides, I., et al., Surface characterization of artificial corrosion layers on copper alloy reference materials. In Transformation of the artificial green patina layers., AKI, Pelhřimov, Czech Republic, Pelhřimov, Czech Republic, 2001. Geiplova, H., Prediction of the long-term corrosion rate of copper alloy objects. Watanabe, M., et al., Evolution of patinas on copper exposed in a suburban area. Sandberg, J., et al., Corrosion-induced copper runoff from naturally and pre-patinated copper in a marine environment. Kratschmer, A., et al., The evolution of outdoor copper patina. Franceschi, E., et al., Colour measurements on patinas and coating system for outdoor bronze monuments. Aastrup, T., et al., In situ studies of the initial atmospheric corrosion of copper influence of humidity, sulfur dioxide, ozone, and nitrogen dioxide. E., et al., Copper Patinas Formed in the Atmosphere.1. Leygraf, C., et al., The origin and evolution of copper patina colour. Zhang, Q., et al., Variability of SO 2 in an intensive fog in North China Plain: Evidence of high solubility of SO 2. P., et al., The chemistry of copper patination. Robbiola, L., et al., Morphology and mechanisms of formation of natural patinas on archaeological Cu-Sn alloys. E., et al., The atmospheric corrosion of copper at two sites in Portugal: a comparative study. De la Fuente, D., et al., Morphological study of 16-year patinas formed on copper in a wide range of atmospheric exposures.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |