Martinez-Verdu F M, Perales E, Chorro E and Viqueira V
University of Alicante, Spain
Posters & Accepted Abstracts: J Material Sci Eng
Visual appearance of materials, covering color and texture (gloss, sparkle, etc.) can be understood and managed better using a top-down and bottom-up multi-scale approach. This strategy is used in the automotive industry for the car body by different optical instruments for measuring color in different combinations of lighting and viewing, gloss, and other surface texture effects as sparkle (due to directional lighting) or graininess (with difusse lighting), etc. But, it can be progressively extended to other industries as cosmetics, plastics, coatings, printing inks, building materials, new materials, etc., using current or future industry and scientific standards proposed currenty for the automotive sector. Nowadays, many specialeffect pigments, with goniochromatic or other functional effects, are extensively used in many industries for manufacturing attractive colored products. The light-matter-eye interaction is mainly responsible for these colorful effects in daily objects as cars, joys, cosmetic products, etc. However, the origin of this visual appearance is a complicated sinergy of variables and models from at nano/micro scale to (macro) optical behavior, including the visual assessment of the human observer (colorist, quality engineer, client, etc.). And, in all quality processess of visual validation of objects (cars, joys, etc.), the visual and instrumental correlation should be undestood and proactively managed for producing repeatable objects with the same visual attributes (color, gloss, sparkle, etc.). Spite of some important progresses in advanced optical instrumentation for measuring color, gloss, etc., this is not enough for new pigments, materials, etc., and in many times even it is not enough without running experiments of visual detection, scaling or grading, and discrimination, or visual tolerances. Therefore, the visual appearance of materials can be converted in this century into an excellent example of inter and multi-disciplinary science.
Email: verdu@ua.es
Journal of Material Sciences & Engineering received 3677 citations as per Google Scholar report
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