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In November 2019, U.S. Marines, Air Force, and Army Corps of Engineers personnel demonstrated the viability and simplicity of three-dimensionally (3D)-printed construction in a controlled environment at the U.S. Army Engineer Research and Development Center—Construction Engineering Research Laboratory in Champaign, Illinois. The tri-service exercise spanned three days and culminated in the construction of three 1 m × 1 m × 1 m (3 ft × 3 ft × 3 ft) concrete dragon’s teeth (square pyramid military fortifications used to defend against tanks and armored vehicles) and several custom-designed objects. The structural components were printed using a custom-built, gantry-style printer called ACES Lite 2 and a commercially available, proprietary mortar mix. This paper examines the viability of using 3D-printed construction in remote, isolated, and expeditionary environments by considering the benefits and challenges associated with the printing materials, structural design, process efficiency, labor demands, logistical considerations, environmental impact, and project cost. Based on the results of this exercise, 3D-printed construction was found to be faster, safer, less labor-intensive, and more structurally efficient than conventional construction methods: the dragon’s teeth were printed in an average of 57 min each and required only two laborers. However, the use of commercially procured, pre-mixed materials introduced additional cost, logistical burden, and adverse environmental impact as compared to traditional, on-site concrete mixing and production. Finally, this paper suggests future applications and areas of further research for 3D-printed construction.

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What to Do? Let’s Think It Through! Using the Analytic Hierarchy Process to Make Decisions

Jagoda¹,

Schuldt²,

Hoisington³

2020

Front. Young Minds

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Star Light, Star Bright… Let’s Build a House on the Moon Tonight!

Jagoda¹,

Hoisington²,

Schuldt³

2020

Front. Young Minds

View full text Add to dashboard Cite

On July 20, 1969, astronaut Neil Armstrong became the first person to walk on the moon. Over the next 3 years, 11 others followed in his footsteps. However, astronauts have not returned to the moon in nearly 50 years. Since then, scientists have talked about sending people back to the moon or even to Mars. Some scientists want to establish permanent colonies in space in case resources ever run out on Earth. But how do you build places to live and work in an area with no construction materials, equipment, or workforce? One promising solution may be three-dimensional printing.

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Jeneé A. Jagoda

A systematic review and analysis of the viability of 3D-printed construction in remote environments

The Viability and Simplicity of 3D-Printed Construction: A Military Case Study

What to Do? Let’s Think It Through! Using the Analytic Hierarchy Process to Make Decisions

Star Light, Star Bright… Let’s Build a House on the Moon Tonight!

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