Digital software gives an immense freedom of exploration and generation of complex forms, that was previously unavailable. It also gives an opportunity to imitate real materials such as wood, gold etc as well as create new and imaginary digital materials with exaggerated luminosity, translucency etc. My recent experiments with Z Brush have been around the digital materials.
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| The digital human skin |
In these examples, I was contemplating on the use of an unlikely building material like the human skin.
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| The digital "ear" terrain |
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| The digital skin structure |
I have also tried something of the world of graphic novels; the skin of the famous Dr. Manhattan character from 1980s "Watchman". He was a physicist who was accidentally disintegrated in an Intrinsic Field Subtractor and was transformed into a blue-skinned omnipotent being, consisting of only atoms and pure conciousness.
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| Dr. Manhattan surface |
In the early stages while generating the first variations of the main geometry, I have been thinking about the glass, its qualities and its potential for detail. The fluidity of glass and its response to light is profoundly fascinating.
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| The digital glass |
It is curious that the only glass, that is formed naturally , is a result of a high-temperature incidents such as volcano eruption or lighting striking, that causes the rock to melt.
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| Volcanic glass |
Apart from its magnificent qualities, there is another reason why glass fascinates me so greatly; the glass making technique is very ancient, thousands of years old, and yet, there has been little change in the basics of hot glass techniques in particular. The glass artists are exceptional craftsmen, with a through understanding of physical and chemical characters of glass and very few gain a good control over the formation of hot glass and glass blowing in particular. I do want to experiment with potential relationship of digital fabrication and traditional glass making.
In architecture, glass is commonly used in uniformed and utilitarian ways and careful consideration is given to its thermodynamic and transparent qualities.
Glass artist Dale Chihuly is one of the most well known innovative glass makers, who create very intricate and extremely complex geometrical clusters of blown glass in massive scales. (http://www.vam.ac.uk/content/articles/b/behind-the-scenes-chihuly-chandelier/?utm_source=V%26A-website&utm_medium=redirect&utm_content=int-chihuly-desktop-wallpaper&utm_campaign=ugc-rev-nov11)
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| D. Chihuly at V&A |
Evan Douglis architectural studio is one of the contemporaries who are interested in the synthesis of ornamental forms and emerging fabrication techniques. In their Brooklyn emporium Choice in Dumbo, the architect created a new modular ceiling from a series of sixteen primary building components that were computer-designed and3-D printed.
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| Moon Jelly glass chandeliers by E. Douglis |
Suspended from the construction are 45 hand-blown glass chandeliers – named Moon Jelly, the bubble-shaped pieces are like “fireflies that float underneath the night sky, ”according to Douglis – and add the final baroque flourish to this otherwise minimalist interior.
http://www.core.form-ula.com/2010/05/27/evan-douglis-moon-jelly/
These inspiring examples show that there is a much more versatile and imaginative way of creating space with glass and the key may lie within the use of the emerging technologies such as the 3D CNC and 3D printing techniques.
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