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Kurpisz D, Obst M. The energetic and experimental based approach to description of basic material characteristics and mechanical properties of selected polymers. Journal of Theoretical and Applied Mechanics. 2020;58:183–93.Search in Google Scholar
Wegner T, Kurpisz D. An energy-based method in phenomenological description of me-chanical properties of nonlinear material under plane stress. Journal of Theoretical and Applied Mechanics. 2017;55:129–39.Search in Google Scholar
Khlif M, Masmoudi N, Bradai C. Polypropylene tensile test under dynamic loading. Journal of KONES Powertrain and Transport. 2014 Dec 28;21(1):131–8.Search in Google Scholar
Jordan JL, Siviour CR, Sunny G, Bramlette C, Spowart JE. Strain rate-dependant mechanical properties of OFHC copper. J Mater Sci. 2013 Oct;48(20):7134–41.Search in Google Scholar
Włodarczyk E, Janiszewski J. Dynamiczne stany naprężenia i skoń-czonego odkształcenia w metalowym cienkim pierścieniu rozszerzanym wybuchowo. Biuletyn Wojskowej Akademii Technicznej. 2007;Vol. 56(nr 1):126–42.Search in Google Scholar
Clough EC, Plaisted TA, Eckel ZC, Cante K, Hundley JM, Schaedler TA. Elastomeric Microlattice Impact Attenuators. Matter. 2019 Dec;1(6):1519–31.Search in Google Scholar
Trzaskalska M, Chwastek R. Damping Properties and Density of Helmet Liners Made of Expanded Polystyrene (EPS). Archives of Metallurgy and Materials. 2021;66(1):339–44.Search in Google Scholar
Reyes A, Børvik T. Low velocity impact on crash components with steel skins and polymer foam cores. International Journal of Impact Engineering. 2019 Oct;132:103297.Search in Google Scholar
Koohbor B, Blourchian A, Uddin KZ, Youssef G. Characterization of Energy Absorption and Strain Rate Sensitivity of a Novel Elastomeric Polyurea Foam. Adv Eng Mater. 2021 Jan;23(1):2000797.Search in Google Scholar
Mizuno K, Ito D, Oida K, Kobayashi G, Han Y. Head protection with cyclist helmet in impact against vehicle A-pillar. International Journal of Crashworthiness. 2017 May 4;22(3):322–31.Search in Google Scholar
Raponi E, Fiumarella D. Experimental analysis and numerical optimization of a thermoplastic composite in crashworthiness. IOP Conf Ser: Mater Sci Eng. 2021 Feb 1;1038(1):012030.Search in Google Scholar
Kathiresan M, Manisekar K, Manikandan V. Crashworthiness analysis of glass fibre/epoxy laminated thin walled composite conical frusta under axial compression. Composite Structures. 2014 Feb;108:584–99.Search in Google Scholar
Tarlochan F. Sandwich Structures for Energy Absorption Applications: A Review. Materials. 2021 Aug 22;14(16):4731.Search in Google Scholar
Jabłońska MB, Śmiglewicz A, Niewielski G. The Effect Of Strain Rate On The Mechanical Properties And Microstructure Of The High-Mn Steel After Dynamic Deformation Tests. Archives of Metallurgy and Materials. 2015 Jun 1;60(2):577–80.Search in Google Scholar
Stankiewicz M, Popławski A, Bogusz P, Gieleta R, Sławiński G. Experimental Evaluation Of Energy Absorbing Properties Of Selected Elastomer Materials. Journal of KONES Powertrain and Transport. 2015 Jan 1;22(3):241–8.Search in Google Scholar
Liang W, Bonsu AO, Tang X, Lei Z, Yang B. Impact and CAI behavior of SGF mat filled sandwich panels made from foam core and FRP facesheet. Composites Communications. 2022 Jan;29:101000.Search in Google Scholar
Avalle M, Belingardi G. A Mechanical Model of Cellular Solids for Energy Absorption. Adv Eng Mater. 2019 Apr;21(4):1800457.Search in Google Scholar
Sun G, Li G, Hou S, Zhou S, Li W, Li Q. Crashworthiness design for functionally graded foam-filled thin-walled structures. Materials Science and Engineering: A. 2010 Mar;527(7–8):1911–9.Search in Google Scholar
Robinson MB, Stousland T, Baqui M, Karami G, Ziejewski M. Reducing effect of softball-to-head impact by incorporating slip-surface in helmet. Procedia Engineering. 2011;13:415–21.Search in Google Scholar
Maw S, Lun V, Clarke A. The influence of helmet size and shape on peak linear decelerations when impacting crash pads. Procedia Engineering. 2012;34:819–24.Search in Google Scholar
Lewis LM, Naunheim R, Standeven J, Lauryssen C, Richter C, Jeffords B. Do Football Helmets Reduce Acceleration of Impact in Blunt Head Injuries? Acad Emergency Med. 2001 Jun;8(6):604–9.Search in Google Scholar
Whyte T, Gibson T, Eager D, Milthorpe B. Response of a full-face motorcycle helmet FE model to the UNECE 22.05 chin bar impact test. International Journal of Crashworthiness. 2016 Nov;21(6):555–65.Search in Google Scholar
Ghajari M, Peldschus S, Galvanetto U, Iannucci L. Evaluation of the effective mass of the body for helmet impacts. International Journal of Crashworthiness. 2011 Dec;16(6):621–31.Search in Google Scholar
Wu JZ, Pan CS, Ronaghi M, Wimer BM, Reischl U. Application of polyethylene air-bubble cushions to improve the shock absorption performance of Type I construction helmets for repeated impacts. BME. 2021 Jan 21;32(1):1–14.Search in Google Scholar
Mazurek K, Szyguła M. Dynamic analysis of thin-walled structures as energy absorbers. MM. 2020 Jul 6;(162):2–12.Search in Google Scholar
Böhm R, Hornig A, Weber T, Grüber B, Gude M. Experimental and Numerical Impact Analysis of Automotive Bumper Brackets Made of 2D Triaxially Braided CFRP Composites. Materials. 2020 Aug 12;13(16):3554.Search in Google Scholar