2021-04-122015-05-219781934551196SCOPUS;2-s2.0-84987623282http://hdl.handle.net/10784/29147Animals have developed different strategies to protect themselves from environmental and predatory threats. One of these strategies concerns with the development of natural flexible dermal armor, usually consisting of rigid and highly mineralized units (e. g. scales or osteoderms) attached by flexible collagen fibers. These kinds of arrangements have been proven to achieve high flexibility without significant reduction in strength in comparison to monolithic structures. These are in fact features extremely valued by body armor users. This work studies the mechanical characteristics of scales and osteoderms of different animals (including mammals, reptiles and fishes), in order to compare them with other characteristics of the animal itself (like length and mobility) and characteristics of their predators like geometry and composition of their teeth and strength of bite. This comparison extends our knowledge and open new ways of understanding on how to design body armor materials and structures looking into improvements on flexibility and mobility. Copyright 2015. Used by the Society of the Advancement of Material and Process Engineering with permission.engSoc. for the Advancement of Material and Process Engineeringinfo:eu-repo/semantics/conferencePaperAnimalsMammalsMechanical propertiesBody armorsCollagen fiberHigh flexibilityMechanical characteristicsMonolithic structuresWork studyArmor2021-04-12Alexander Ossa, E.