4.5 Article

Evolution and Evaluation of Aesthetic Properties in Weathering Steel Accelerated Patinas: The Role of Lepidocrocite

Journal

METALS
Volume 12, Issue 6, Pages -

Publisher

MDPI
DOI: 10.3390/met12060977

Keywords

weathering steel; sculpture; corrosion; color; contemporary art; conservation-restoration; cultural heritage; Raman spectroscopy; X-ray Diffraction; lepidocrocite

Funding

  1. Agencia Estatal de Investigacion [BES-2015-071472]
  2. Ministerio de Economia y Competitividad, project CREMEL II [HAR2014-54893-R]
  3. Comunidad de Madrid
  4. European Structural and Investment Funds, project TOP-HERITAGE CM [S2018/NMT-4372]

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Weathering steels are commonly used in various fields due to their mechanical properties, resistance to corrosion, and aesthetic properties. An experiment was conducted to compare the colors and surface evolution of accelerated and natural patinas. The results showed that the colors of the accelerated patinas differed from the natural patina at short exposure times but converged at longer exposure times.
Weathering steels are widely used in civil engineering, architecture and contemporary art due to their mechanical properties, their enhanced resistance to atmospheric corrosion as well as their aesthetic properties. Artists and blacksmiths often apply chemical treatments to obtain the appealing colors of a patina in a shorter period of time. However, the development of an accelerated patina may have an effect on the final appearance and color of the surface. With the aim of evaluating differences in color and studying the evolution of the surface, eight accelerated patinas were made and exposed to the atmosphere for periods of time of up to 24 months and were compared to a natural patina. The characterization studies showed the presence of lepidocrocite on the surface. A close inspection of the X-ray diffraction patterns showed the displacement of the (020) lepidocrocite reflection and asymmetric broadening of selective lines of this phase that were associated to stacking and twins faults, respectively. These faults decrease with the exposure time and are related to a maximum at 630 nm in the reflectance spectrum and the stabilization of the b* coordinate (yellow color). The colors of the accelerated patinas differ from the natural patina at short exposure times. However, they tend to converge at longer exposure times.

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