What’s next? Swarm 3D printing, i.e., synchronized 3D printing

Scientists from Nanyang Technological University, Singapore (NTU Singapore) have developed a technology where two robots can work in unison to 3D-print. In this case, the robots are 3D printing a concrete structure.

This method of concurrent 3D printing, known as swarm printing, paves the way for a team of mobile robots to print bigger structures. It was developed by Assistant Professor Pham Quang Cuong and his team at NTU’s Singapore Centre for 3D Printing.

(3rd from left) NTU Asst Prof Pham Quang Cuong with his multidisciplinary team of researchers consisting of roboticists, civil engineers, mechanical engineers and material scientists, with the 3D concrete structure printed by the two robots concurrently in a single print.

Using a specially formulated cement mix suitable for 3-D printing, this new development will allow for unique concrete designs currently not possible with conventional casting. Structures can also be produced on demand and in a much shorter period.

Currently, 3D-printing of large concrete structures requires huge printers that are larger than the printed objects, which is unfeasible since most construction sites have space constraints.

Having multiple mobile robots that can 3D print in sync means large structures like architectural features and specially designed facades can be printed anywhere as long as there is enough space for the robots to move around the work site.

The NTU robots 3D-printed a concrete structure measuring 1.86 m x 0.46 m x 0.13 m in eight minutes. It took two days to harden and one week for it to achieve its full strength before it was ready for installation.

“We envisioned a team of robots which can be transported to a work site, print large pieces of concrete structures and then move on to the next project once the parts have been printed,” explained Asst Prof Pham from NTU’s School of Mechanical and Aerospace Engineering.

Printing concrete structures concurrently with two mobile robots was a huge challenge, as both robots have to move into place and start printing their parts without colliding into each other.

Printing the concrete structure in segments is also not acceptable, as joints between the two parts will not bond properly if the concrete does not overlap during the printing process.

This multi-step process starts by having the computer map out the design to be printed and assign a specific part of the printing to a robot. It then uses a special algorithm to ensure that each of robot arm will not collide with another during the concurrent printing.

Using precise location positioning, the robots then move into place and print the parts in good alignment, ensuring that the joints between the separate parts are overlapped. Finally, the mixing and pumping of the specialised liquid concrete mix have to be blended evenly and synchronised to ensure consistency.

Professor Chua Chee Kai, Executive Director of the Singapore Centre for 3D Printing said disruptive Industry 4.0 technologies like additive manufacturing, can be advanced even further when combined with other innovative technologies like robotics, AI, materials science and green manufacturing techniques.

“This multiple robot printing project is highly interdisciplinary, requiring roboticists to work with materials scientists to make printable concrete. To achieve the end result of a strong concrete structure, we had to combine their expertise with mechanical engineers and civil engineering experts.”

“Such an innovation demonstrates to the industry what is feasible now, and prove what is possible in the future if we are creative in developing new technologies to augment conventional building and construction methods.”

This research project was supported by the National Research Foundation, Singapore (NRF Singapore) and Sembcorp Design and Construction, one of the key industry research partners of SC3DP.

Moving forward, the NTU research team will look at integrating even more robots to print larger scale structures, optimizing printing algorithm for consistent performance and to improve the concrete material for faster curing.

Nanyang Technological University
www.ntu.edu.sg