Mechanical Behaviour, Contact Pose Estimation, and Finite Element Analysis of Vision Based Tactile Sensors Fabricated by Molding and Direct Ink Writing: A Comparative Study

Mechanical Behaviour, Contact Pose Estimation, and Finite Element Analysis of Vision Based Tactile Sensors Fabricated by Molding and Direct Ink Writing: A Comparative Study

Direct Ink Writing In article number 2400630, Yarjan Abdul Samad and co‐workers use direct ink writing to fabricate an additively manufactured vision based tactile sensor, which cuts down the fabrication time, allows more control of the design, and reduces the feature complexities. The mechanical ch...

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Veröffentlicht in:Advanced engineering materials 2024-11, Vol.26 (22), p.n/a
Hauptverfasser: Solayman, Abdullah, Halwani, Mohamad, Zaid, Islam Mohamed, Ambade, Rohan B., Chang, Rui, Ayyad, Abdulla, AlMaskari, Fahad, Zweiri, Yahya, Abdul Samad, Yarjan
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container_end_page n/a
container_issue 22
container_start_page
container_title Advanced engineering materials
container_volume 26
creator Solayman, Abdullah
Halwani, Mohamad
Zaid, Islam Mohamed
Ambade, Rohan B.
Chang, Rui
Ayyad, Abdulla
AlMaskari, Fahad
Zweiri, Yahya
Abdul Samad, Yarjan
description Direct Ink Writing In article number 2400630, Yarjan Abdul Samad and co‐workers use direct ink writing to fabricate an additively manufactured vision based tactile sensor, which cuts down the fabrication time, allows more control of the design, and reduces the feature complexities. The mechanical characteristics of the DIW sensor, robotic normality estimation, and finite element analysis are at par with those of molded Ecoflex, hence providing a fast, scaleable method to produce such sensors.
doi_str_mv 10.1002/adem.202470059
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title Mechanical Behaviour, Contact Pose Estimation, and Finite Element Analysis of Vision Based Tactile Sensors Fabricated by Molding and Direct Ink Writing: A Comparative Study
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