000004947 001__ 4947
000004947 005__ 20141119144607.0
000004947 04107 $$aeng
000004947 046__ $$k2002-06-02
000004947 100__ $$aSarikaya, Mehmet
000004947 24500 $$aBIOMIMETICS: NANOMECHANICAL DESIGN OF MATERIALS THROUGH BIOLOGY

000004947 24630 $$n15.$$pProceedings of the 15th ASCE Engineering Mechanics Division Conference
000004947 260__ $$bColumbia University in the City of New York
000004947 506__ $$arestricted
000004947 520__ $$2eng$$aBiological hard tissues, composites of inorganic materials (such as ceramics) and organic matrices (such as proteins), have unusual engineering mechanical properties compared to those of synthetic materials with similar phase compositions. These biocomposites may serve as guides for the design of technological materials with practical applications. Biomimetics is investigation of biologically synthesized materials to obtain lessons for design of novel engineering systems. Three biological hard tissues are discussed here: (i) A sponge spicule, fibrous, glassy silica with a concentrically-layered structure that has both useful mechanical and optical properties; (ii) Nacre, “mother-of-pearl”, of mollusk shells, a segmented layered structure with an excellent combination of strength and toughness; and (iii) Dentin-enamel junction that demonstrates coupling of structurally and functionally different hard tissues in mammalian teeth.

000004947 540__ $$aText je chráněný podle autorského zákona č. 121/2000 Sb.
000004947 653__ $$aBiomimetics, hard tissues, sponge spicule, enamel, teeth, nacre, mother-of-pearl

000004947 7112_ $$a15th ASCE Engineering Mechanics Division Conference$$cNew York (US)$$d2002-06-02 / 2002-06-05$$gEM2002
000004947 720__ $$aSarikaya, Mehmet$$iFong, Hanson$$iSopp, J. M.$$iKatti, Kalpana S.$$iMayer, George
000004947 8560_ $$ffischerc@itam.cas.cz
000004947 8564_ $$s443643$$uhttps://invenio.itam.cas.cz/record/4947/files/595.pdf$$yOriginal version of the author's contribution as presented on CD, .
000004947 962__ $$r4594
000004947 980__ $$aPAPER