Role of stag beetle jaw bending and torsion in grip on rivals

Goyens, Jana; Dirckx, Joris J.J.; Piessen, Maxim; Aerts, Peter

doi:10.1098/rsif.2015.0768

Cited by 7 publications

(4 citation statements)

References 24 publications

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“…The hollow structure has obvious advantages over solid structure in bearing loads when the total amount of the material is constant; moreover, the triangular cross-section makes the structure more bending resistant than it would have been with other cross-section (e.g. circular) [17,18]. The area ratio of the cavity on the cross section increases with the distance from the tip to end[5].…”

Section: Resultsmentioning

confidence: 99%

“…They speculated the metal elements played a role in enhancing localized hardness, abrasion resistance and fracture strength during evolutionary process[34,35]. Moreover, chemical gradients and cross-linking have been reported as another solution to enhance the mechanical properties of the organic models such as squid beak[18]. These gradients may cause variations in the optical properties of the tissues, as the dark colour in the tip of the claw.…”

Section: Resultsmentioning

confidence: 99%

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Structure, mechanics and material properties of claw cuticle from mole cricket Gryllotalpaorientalis

et al. 2019

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Powerful shovel-like forelimbs with special shape, structure and biological materials enable mole cricket to digging efficiently. During digging, the tip of the claw needs to wedge into the soil, and the base needs to withstand considerable anti-shear force. In this study, we analysed the structural characteristics, material composition and mechanical properties of the claw teeth using scanning electron microscopy, plasma atomic emission spectroscopy, nanoindentation and finite element analysis. The results show that the tips of claw teeth have a dense and homogeneous structure and a higher hardness and contents of Mn and Zn compared with the base. The structure of the base of claw teeth has an obvious laminar structure and higher fracture resistance. Moreover, it is speculated from the simulation results that basal position of the claw teeth is tough enough to withstand high stress, and the presence of the ribs effectively improves the mechanical stability and load-bearing capacity of the teeth during excavation. The results of this study can provide inspiration for the design of efficient mechanical components and agricultural implements.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Structure, mechanics and material properties of claw cuticle from mole cricket Gryllotalpaorientalis

et al. 2019

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“…The formal layout of the bicycle is designed to go beyond the concept of a trapezoidal frame with diagonal and circular section tubulars, in order to satisfy the mechanical resistance requirements of the load‐bearing structure. Regarding the tubulars, these aspects have been pursued after the in‐depth study of the work conducted by Goyens et al., [ 5,6 ] where it emerges that the triangular section provides a higher strength than the elliptical one, due to particular loading conditions such as the “bite” of the “stag beetle.” The shapes identified in the jaw of the stag beetle ( Figure a) could help to avoid structural failure by providing a geometry that resists bending in the entire structure, with reinforcement at the end, to dissipate energy. The triangular geometry of the base (the area that receives the greatest load) increases the torsion resistance in the base even more.…”

Section: Bioinspired Approachesmentioning

confidence: 99%

“…www.advancedsciencenews.com www.ms-journal.de Figure 1. a) Sections (2-3) of the stag beetle jaw (1) [6] ; b) Rover Safety Bike 1885 ©Science Museum/Science and Society Picture Library.…”

Section: Doi: 101002/masy202000313mentioning

confidence: 99%

Biocycle between Design and Additive Manufacturing

Scognamiglio

Capece

Luca

et al. 2021

Macromolecular Symposia

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The paper describes the experience of research and experimentation conducted for the configuration of a new "Biocycle" bike conceived through eco-friendly and bio-inspired design methods and with the support of additive manufacturing (AM) technologies aimed to achieve a customized and flexible production. According to this logic, it is necessary to consider the AM as a valid support to both innovation and growth of many sectors in which creativity and design capacity play a strategic role for original solutions. The multidisciplinary approach and the collaboration between research institutes, companies, laboratories and universities, characterize the design and experimentation of the Biocycle. This has enabled the development of a new bicycle according to eco-design and bio-design criteria, by using recycled materials such as polyethylene terephthalate (PET), by introducing the principles of the environmental design into the definition of the entire product life cycle and by merging traditional production methods with AM to optimize the performance and reduce the overall weight, costs, and production time of the frame. To support the design phase, also a finite element (FE) model was developed. The aim is to obtain lightweight performing components with compact and ergonomic dimensions for the eco-bike. This leads to the synthesis of new unconventional shapes and a better distribution of the material from the topological-functional optimization analysis as well as AM. Advanced Models and Experiences for Eco-DesignThe contribution describes the research experience carried out at the Design and Experimentation laboratory of the University of Campania L. Vanvitelli. Data and information are shared according to a systemic approach integrated between technical,

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Form and Function of Insect Mouthparts

Krenn

2019

Zoological Monographs

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Role of stag beetle jaw bending and torsion in grip on rivals

Cited by 7 publications

References 24 publications

Structure, mechanics and material properties of claw cuticle from mole cricket Gryllotalpaorientalis

Structure, mechanics and material properties of claw cuticle from mole cricket Gryllotalpaorientalis

Biocycle between Design and Additive Manufacturing

Form and Function of Insect Mouthparts

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