Handles with Reentrant Cells for Use as Oar Handles: Design Considerations, Physical Characteristics, and End-Users’ Perceptions

Rowing is a sport that requires athletes to perform the action of pulling and rotating an oar by hand, applying forces of considerable magnitude. Herein, inspired by the notion that auxetic materials and metamaterials behave differently compared to their conventional counterparts, it is examined how a handle prototype, specifically designed to incorporate the classic re-entrant motif, behaves and how end-users perceive it. Physical experiments conducted on such prototype, which measured the contact pressures, suggest that on average, higher pressures are measured when pulling with this reentrant grip compared to its non reentrant counterpart, indicating that this re-entrant prototype should feel firmer. More importantly, respondents of a survey are asked to give their feedback, and different views on which handle they would prefer to use are provided. The ones who preferred the prototype with the reentrant features report that they preferred it because it felt firmer and allowed for a better grip. This suggests that there is potential for further investigation into whether handles, oar handles in particular, made from auxetic components, re-entrant cells, or other motifs which are well known for their negative Poisson's ratio characteristics, could provide a better and more secure grip and be used in sports applications.An oar-handle prototype, specifically designed to incorporate the reentrant motif, is proposed and studied through physical experiments which measure contact pressure and via a survey to see how end-users perceive it. Prototype felt firm, providing a better and more secure grip, ideal for use in sports applications.image (c) 2024 WILEY-VCH GmbH