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Lean and mean: Building a multifunctional pressure sensor with 3D printing technology

Date:
July 14, 2021
Source:
DGIST(大邱韩国庆北理工学院的合作伙伴nce and Technology)
Summary:
压力传感器是重要的工具,准确sensing of applied forces. However, they can mostly sense forces along only a single direction. In a new study, scientists take things to the next level with a multi-directional pressure sensor fabricated using 3D-printed conductive polymer composites and paired with a temperature sensor for resistance calibration. The low cost of such 3D-printed sensors could enable large-scale production of robotic grippers and tactile sensors.
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FULL STORY

The treatment of many medical issues like abnormal gait and muscular disorders require an accurate sensing of applied pressure. In this regard, flexible pressure sensors that are simple, lightweight, and low-cost, have garnered considerable attention. These sensors are designed and manufactured through "additive manufacturing," or what is more commonly called "3D printing," using conductive polymer composites as their building blocks.

However, all 3D-printed pressure sensors developed so far are limited to sensing applied forces along a single direction only. This is hardly enough for real world applications, which involve situations where forces can be applied along various angles and directions. Moreover, the electrical resistance of most conductive polymers varies with temperature and must be compensated for accurate pressure sensing.

In a study published inComposites Part B: Engineering, a group of scientists led by Prof. Hoe Joon Kim from Daegu Gyeongbuk Institute of Science and Technology, South Korea, have addressed this issue with a newly designed multi-axis pressure sensor coupled with a temperature-sensing component that overcomes the limitations of conventional sensors. "Our multi-axis pressure sensor successfully captures the readings even when tilted forces are applied. Moreover, the temperature-sensing component can calibrate the resistance shift with temperature changes. In addition, the scalable and low-cost fabrication process is fully compatible with commercial 3D printers," explains Prof. Kim.

Scientists first prepared the printable conductive polymer using multi-walled carbon nanotubes (MWCNTs) and polylactic acid (PLA). Next, they built the sensor body with a commercial elastomer and sensing material with MWCNTs/PLA composite filament using 3D printing. The sensor is based on a bumper structure with a hollow trough beneath and employs three pressure-sensing elements for multi-axis pressure detection and a temperature-sensing element for calibration of resistance. The sensor could successfully calibrate both the magnitude and direction of the applied force by evaluating the response of each pressure-sensing element. This bumper structure, when installed in a 3D-printed flip-flop and a hand gripper, enabled clear distinction between distinct human motions and gripping actions.

The scientists are thrilled about the future prospects of their 3D-printed sensor. "The proposed 3D printing technology has a wide range of applications in energy, biomedicine, and manufacturing. With the incorporation of the proposed sensing elements in robotic grippers and tactile sensors, the detection of multi-directional forces along with temperature could be achieved, heralding the onset of a new age in robotics," comments an excited Prof. Kim.

Indeed, those are some interesting consequences to look forward to!

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故事来源:

Materialsprovided byDGIST(大邱韩国庆北理工学院的合作伙伴nce and Technology).Note: Content may be edited for style and length.


Journal Reference:

  1. Hang-Gyeom Kim, Sugato Hajra, Dongik Oh, Namjung Kim, Hoe Joon Kim.Additive manufacturing of high-performance carbon-composites: An integrated multi-axis pressure and temperature monitoring sensor.Composites Part B: Engineering, 2021; 222: 109079 DOI:10.1016/j.compositesb.2021.109079

Cite This Page:

DGIST(大邱韩国庆北理工学院的合作伙伴nce and Technology). "Lean and mean: Building a multifunctional pressure sensor with 3D printing technology." ScienceDaily. ScienceDaily, 14 July 2021. .
DGIST(大邱韩国庆北理工学院的合作伙伴nce and Technology). (2021, July 14). Lean and mean: Building a multifunctional pressure sensor with 3D printing technology.ScienceDaily. Retrieved August 3, 2023 from www.koonmotors.com/releases/2021/07/210714110606.htm
DGIST(大邱韩国庆北理工学院的合作伙伴nce and Technology). "Lean and mean: Building a multifunctional pressure sensor with 3D printing technology." ScienceDaily. www.koonmotors.com/releases/2021/07/210714110606.htm (accessed August 3, 2023).

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