NEUROERGONOMICS APPLIED IN ENGINEERING TO TEST LIGHTER AND COMFORTABLE MATERIALS FOR WHEELCHAIR’ USERS

Revista Sodebras Pub Date : 2024-06-01 DOI:10.29367/5bge8b53

Roque Antônio de Moura, Jonathan William Oliveira Marílio, Diego José Rodrigues Marques, Márcia Regina de Oliveira, Messias Borges Silva

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Abstract

With the advent of the digital era, intelligent machines demand an updated profile of the workforce. Reduced mobility is no longer a limitation and, in addition to accessibility and individual movement, the wheelchair has the important function of helping with socialization. The objective of this research is to disseminate and apply neuroergonomic principles in engineering to test materials that can be used in the construction of wheelchairs, validating, using virtual tests, lighter and more comfortable materials for wheelchair users. The methodology adopted related bibliographical research inherent to the topic and use specialized software to test three different materials. The result shows that there are materials that offer excellent mechanical properties and are lighter and easier to handle. It is concluded that manufacturers need to review the materials used in the manufacture of wheelchairs as well as apply neuroergonomic principles in the manufacture of new models of wheelchairs that require less effort in locomotion and improve the posture of users

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在工程学中应用神经工效学，为轮椅使用者测试更轻、更舒适的材料

随着数字化时代的到来，智能机器要求更新劳动力的形象。行动不便不再是一种限制，除了无障碍和个人行动之外，轮椅还具有帮助社交的重要功能。这项研究的目的是在工程学中传播和应用神经人体工程学原理，测试可用于制造轮椅的材料，通过虚拟测试验证轮椅使用者使用的材料是否更轻、更舒适。该方法采用了该主题固有的相关文献研究，并使用专业软件测试了三种不同的材料。结果表明，有些材料具有出色的机械性能，而且更轻、更易于操作。结论是，制造商需要对轮椅制造中使用的材料进行审查，并在制造新型轮椅时应用神经人体工程学原理，以减少运动时的体力消耗并改善使用者的姿势。

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Revista Sodebras

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