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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

208 related items for PubMed ID: 28140357

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  • 3. Passive mechanical models of fish caudal fins: effects of shape and stiffness on self-propulsion.
    Feilich KL, Lauder GV.
    Bioinspir Biomim; 2015 Apr 16; 10(3):036002. PubMed ID: 25879846
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  • 6. Development of a bio-inspired transformable robotic fin.
    Yang Y, Xia Y, Qin F, Xu M, Li W, Zhang S.
    Bioinspir Biomim; 2016 Aug 31; 11(5):056010. PubMed ID: 27580003
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  • 7. Optimal chordwise stiffness profiles of self-propelled flapping fins.
    Kancharala AK, Philen MK.
    Bioinspir Biomim; 2016 Sep 15; 11(5):056016. PubMed ID: 27627992
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  • 8. Functional morphology of the fin rays of teleost fishes.
    Flammang BE, Alben S, Madden PG, Lauder GV.
    J Morphol; 2013 Sep 15; 274(9):1044-59. PubMed ID: 23720195
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  • 9. Gradients of properties increase the morphing and stiffening performance of bioinspired synthetic fin rays.
    Das S, Kunjam P, Ebeling JF, Barthelat F.
    Bioinspir Biomim; 2024 May 24; 19(4):. PubMed ID: 38722377
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  • 10. The relationship between pectoral fin ray stiffness and swimming behavior in Labridae: insights into design, performance and ecology.
    Aiello BR, Hardy AR, Cherian C, Olsen AM, Ahn SE, Hale ME, Westneat MW.
    J Exp Biol; 2018 Jan 09; 221(Pt 1):. PubMed ID: 29162638
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  • 13. Biomechanical model of batoid (skates and rays) pectoral fins predicts the influence of skeletal structure on fin kinematics: implications for bio-inspired design.
    Russo RS, Blemker SS, Fish FE, Bart-Smith H.
    Bioinspir Biomim; 2015 Jun 16; 10(4):046002. PubMed ID: 26079094
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  • 15. Hydrodynamics of a robotic fish tail: effects of the caudal peduncle, fin ray motions and the flow speed.
    Ren Z, Yang X, Wang T, Wen L.
    Bioinspir Biomim; 2016 Feb 08; 11(1):016008. PubMed ID: 26855405
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