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Researchers Create Temperature-Responsive Polymer Composite for Robotics

November 28, 2023

Researchers at the University of Illinois Urbana-Champaign, in collaboration with the University of Houston, have developed a novel 3D printed polymer composite. This material exhibits distinct behaviors at varying temperatures, offering potential advancements in autonomous robotics and environmental interaction. The research, led by Shelly Zhang, a civil and environmental engineering professor, and graduate student Weichen Li, utilizes a combination of computer algorithms, two distinct polymers, and additive manufacturing.

Researchers Create Temperature-Responsive Polymer Composite for Robotics
The temperature sensitive composite, sitting on the print bed. (Image Credit: University of Illinois Urbana-Champaign)

The team employed computer modeling to create a two-polymer composite that reacts differently under various temperatures. This composite transitions from a soft rubber-like state at low temperatures to a stiff plastic-like state at higher temperatures. The research, published in Science Advances, demonstrates the material’s ability to autonomously sense temperature changes and perform specific tasks, such as activating LED lights, without human intervention. As another example, such a material could autonomously adjust its physical properties in response to temperature changes, enabling a robot to modify its functions, such as altering carrying capacity.

“Creating a material or device that will respond in specific ways depending on its environment is very challenging to conceptualize using human intuition alone – there are just so many design possibilities out there,” said Zhang.

“So, instead, we decided to work with a computer algorithm to help us determine the best combination of materials and geometry.”

The National Science Foundation’s support of this research underscores its potential impact on the field of material science and robotics. The development of this temperature-responsive composite opens new avenues for creating more dynamic, autonomous materials suited for a range of applications in various industries.

Future research aims to add complexity to the material’s behavior, like sensing impact velocity, which is crucial for robotic materials to effectively respond to environmental hazards. The ability to program materials with complex, autonomous behaviors will enhance the functionality and adaptability of robotic systems, potentially leading to more efficient and responsive machines in various industrial and environmental applications.

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About the author | Phillip Keane
Phillip is an aerospace engineer from UK. He is a graduate of Coventry University (UK), International Space University (France) and Nanyang Technological University (Singapore), where he studied Advanced Manufacturing at the Singapore Centre for 3D Printing.
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