![\"\"](\"https:\/\/www.3dnatives.com\/es\/wp-content\/uploads\/sites\/4\/Pavilion-1.jpg\")
On the left, the 3D mesh of the structure. On the right, the interior of the pavilion.<\/p><\/div>\n
The 3D printed pavilion<\/h3>\n
In more concrete terms, the 3D printed pavilion at Happy Valley in Nanjing is about 170 feet (52 meters) long and 85 feet (26 meters) wide. In addition, the projection area is around 14,552.8 square feet (1352 m\u00b2), with an unfolded surface of 20,989.6 square feet (1950 m\u00b2). The most characteristic feature of this structure is its multidimensional hyperbolic geometry that allows an overhang of up to 30 meters, which provides \u00a0unique spatial experience. In terms of design, 6 shades of pink were used for each segment using the color pixel collage algorithm. Each of the panels was then 3D printed following the established pattern. After repeated testing of resistant materials the team opted for an outdoor UV-resistant color-modified thermoplastic that can achieve 256 colors with precise parametric color printing technology.<\/p>
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<\/a><\/div>\nHowever, one of the problems in integrating large-scale 3D printing is the dual requirements in scale and precision, which are beyond the limits of physical characteristics of 3D printed materials. Despite this, this project provides a solution from two perspectives: global optimization and cellular computing. Overall, a surface subdivision optimization algorithm derived from a 3D printing model guarantees a safe, reliable and accurate result of the overall panel division.<\/p>\n
![\"3D](\"https:\/\/www.3dnatives.com\/es\/wp-content\/uploads\/sites\/4\/Pavilion-2.jpg\")
In the design, 6 shades of pink were used for each segment (photo credits: Schran Image, Songkai Liu)<\/p><\/div>\n
One of the people responsible for this project commented: “The concept of the pavilion revealed to us the influential possibility of applying 3D printing in construction. It gives us an idea of the future of architecture. The pavilion showed us what human creativity and robotic precision can bring to design and construction. It has created a new workflow and reshaped the traditional process from design to fabrication.”<\/em> You can find more information about the project HERE<\/a>.<\/p>\n *Thumbnail Photo Credits: Schran Image, Songkai Liu<\/em><\/p>\n What do you think of this 3D printed pavilion located in China? Let us know in a comment below or on our <\/span>Facebook<\/a>\u00a0and\u00a0<\/span>Twitter<\/a>\u00a0pages. Don\u2019t forget to sign up for our free weekly\u00a0<\/span>newsletter<\/a>, with all the latest news in 3D printing delivered straight to your inbox!<\/span><\/p>\n
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