Glass 3D Printing (G3DP) Is Optically Transparent Glass Printing Process

Glass 3D Printing (G3DP) is Optically Transparent Glass Printing Process, Called G3DP (Glass 3D Printing) and developed in collaboration with MIT’s Glass Lab. The process is an additive manufacturing platform with dual heated chambers. It’s wonderfully soothing to watch in action, and strangely delicious looking. “Like warm frosting,” “Center of the Earth warm frosting.”

G3DP : Optically Transparent Glass 3D Printing Process

Glass 3D Printing, g3dp,

Historical Background Of Glass Technology

Ancient yet modern, enclosing yet invisible, glass was first created in Mesopotamia and Ancient Egypt 4,500 years ago. Precise recipes for its production – the chemistry and techniques – often remain closely guarded secrets. Glass can be molded, formed, blown, plated or sintered; its formal qualities are closely tied to techniques used for its formation.

From the discovery of core-forming process for bead-making in ancient Egypt, through the invention of the metal blow pipe during Roman times, to the modern industrial Pilkington process for making large-scale flat glass, each new breakthrough in glass technology occurred as a result of prolonged experimentation and ingenuity, and has given rise to a new universe of possibilities for uses of the material.

Glass 3D Printing (G3DP) Technology

This show unveils a first of its kind optically transparent glass printing process called glass 3D printing (G3DP).

Glass 3D Printing is an additive manufacturing platform designed to print optically transparent glass. The tunability enabled by geometrical and optical variation driven by form, transparency and color variation can drive, limit or control light transmission, reflection and refraction, and therefore carries significant implications for all things glass.

The Glass 3D Printing platform is based on a dual heated chamber concept. The upper chamber acts as a Kiln Cartridge while the lower chamber serves to anneal the structures.

The Kiln Cartridge operates at approximately 1900°F and can contain sufficient material to build a single architectural component. The molten material gets funneled through an alumina-zircon-silica nozzle.

The Glass 3D Printing project synthesizes modern technologies, with age-old established glass tools and technologies producing novel glass structures with numerous potential applications.

Ref : Mediatedmattergroup

The G3DP (glass 3D printing) project was created in collaboration between the Mediated Matter group at the MIT Media Lab, the Mechanical Engineering Department, the MIT Glass Lab and Wyss Institute. Researchers include John Klein, Michael Stern, Markus Kayser, Chikara Inamura, Giorgia Franchin, Shreya Dave, James Weaver, Peter Houk and Prof. Neri Oxman.

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