Development of a 6-DOF 3D printed industrial robot for teaching and learning

The trend in modern manufacturing has led to a paradigm shift from the conventional high method to heavily automated processes. This comes with a high cost for those who want to meet up to the increasing pace of this revolution as the machines and the knowledge to control them is becoming expensive....

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Main Authors: Abdullahi, Adamu Yusuf, Yap, Hwa Jen, Hamza, Mukhtar Fatihu, Bello, Musa Mohammed
Format: Article
Published: Springer Science and Business Media Deutschland GmbH 2022
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Online Access:http://eprints.um.edu.my/43199/
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spelling my.um.eprints.431992023-11-21T03:58:42Z http://eprints.um.edu.my/43199/ Development of a 6-DOF 3D printed industrial robot for teaching and learning Abdullahi, Adamu Yusuf Yap, Hwa Jen Hamza, Mukhtar Fatihu Bello, Musa Mohammed QA75 Electronic computers. Computer science The trend in modern manufacturing has led to a paradigm shift from the conventional high method to heavily automated processes. This comes with a high cost for those who want to meet up to the increasing pace of this revolution as the machines and the knowledge to control them is becoming expensive. Two major areas that have contributed in shaping this achievement of the industry 4.0 are additive manufacturing and robotics. With the drop in the prices of 3D printers and availability of off-the-shelf electronics components, the industrial experience is brought nearer to those who cannot afford it, especially students who need learn the adequate skill-sets in order to efficiently perform in this fourth industrial revolution. To this end, this paper aims at building a low-cost 3D printed robotic arm for teaching and learning purpose. The robotic arm was printed using three different kinds of 3D printers, with two most common materials (PLA and ABS). The forward and inverse kinematics of the robotic arm were presented. Finally, the developed robotic arm was controlled using the Arduino mega 2560. A simple pick and place experiment were conducted using the robotic arm. Also, the joint accuracies of three major joints were calculated. It is believed that the robotic arm in this paper will serve as an object of study and a means of tutoring students on robotics education. © 2022, The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. Springer Science and Business Media Deutschland GmbH 2022 Article PeerReviewed Abdullahi, Adamu Yusuf and Yap, Hwa Jen and Hamza, Mukhtar Fatihu and Bello, Musa Mohammed (2022) Development of a 6-DOF 3D printed industrial robot for teaching and learning. Lecture Notes in Electrical Engineering, 730. 355 -368.
institution Universiti Malaya
building UM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaya
content_source UM Research Repository
url_provider http://eprints.um.edu.my/
topic QA75 Electronic computers. Computer science
spellingShingle QA75 Electronic computers. Computer science
Abdullahi, Adamu Yusuf
Yap, Hwa Jen
Hamza, Mukhtar Fatihu
Bello, Musa Mohammed
Development of a 6-DOF 3D printed industrial robot for teaching and learning
description The trend in modern manufacturing has led to a paradigm shift from the conventional high method to heavily automated processes. This comes with a high cost for those who want to meet up to the increasing pace of this revolution as the machines and the knowledge to control them is becoming expensive. Two major areas that have contributed in shaping this achievement of the industry 4.0 are additive manufacturing and robotics. With the drop in the prices of 3D printers and availability of off-the-shelf electronics components, the industrial experience is brought nearer to those who cannot afford it, especially students who need learn the adequate skill-sets in order to efficiently perform in this fourth industrial revolution. To this end, this paper aims at building a low-cost 3D printed robotic arm for teaching and learning purpose. The robotic arm was printed using three different kinds of 3D printers, with two most common materials (PLA and ABS). The forward and inverse kinematics of the robotic arm were presented. Finally, the developed robotic arm was controlled using the Arduino mega 2560. A simple pick and place experiment were conducted using the robotic arm. Also, the joint accuracies of three major joints were calculated. It is believed that the robotic arm in this paper will serve as an object of study and a means of tutoring students on robotics education. © 2022, The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.
format Article
author Abdullahi, Adamu Yusuf
Yap, Hwa Jen
Hamza, Mukhtar Fatihu
Bello, Musa Mohammed
author_facet Abdullahi, Adamu Yusuf
Yap, Hwa Jen
Hamza, Mukhtar Fatihu
Bello, Musa Mohammed
author_sort Abdullahi, Adamu Yusuf
title Development of a 6-DOF 3D printed industrial robot for teaching and learning
title_short Development of a 6-DOF 3D printed industrial robot for teaching and learning
title_full Development of a 6-DOF 3D printed industrial robot for teaching and learning
title_fullStr Development of a 6-DOF 3D printed industrial robot for teaching and learning
title_full_unstemmed Development of a 6-DOF 3D printed industrial robot for teaching and learning
title_sort development of a 6-dof 3d printed industrial robot for teaching and learning
publisher Springer Science and Business Media Deutschland GmbH
publishDate 2022
url http://eprints.um.edu.my/43199/
_version_ 1783876740106420224
score 13.211869