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Please use this identifier to cite or link to this item: https://hdl.handle.net/20.500.14279/14365
DC FieldValueLanguage
dc.contributor.authorKatz, J. Lawrence-
dc.contributor.authorFriis, Lisa-
dc.contributor.authorMisra, Anil S.-
dc.contributor.authorMarangos, Orestes-
dc.contributor.authorWang, Yong-
dc.contributor.authorSpencer, Paulette-
dc.date.accessioned2019-07-08T06:50:17Z-
dc.date.available2019-07-08T06:50:17Z-
dc.date.issued2008-01-01-
dc.identifier.citationJournal of Materials Science, 2008, vol. 43, iss. 1, pp. 139-145en_US
dc.identifier.issn15734803-
dc.identifier.urihttps://hdl.handle.net/20.500.14279/14365-
dc.description.abstractIn 2003 Nature Materials article, Keckes et al. presented deformation properties of a variety of woods in relation to deformation of their individual wood cells. Their point is "The remarkable mechanical properties of biological materials reside in their complex hierarchical structure...". This holds for mineral-based biological materials such as bone as well as for wood. Indeed, one of us (J.L.K.) introduced the concept that to explain the material properties of cortical bone, it was necessary to treat it as a complex material/structural hierarchical composite. Calculations to determine anisotropic properties of bone measured using ultrasonic wave propagation techniques, were extended to similar measurements on both soft and hard woods. These anisotropic properties calculations have been extended to include data based on mechanical measurements of orthotropic elastic constants of both soft and hard woods for comparison with both earlier ultrasonic measurements and mechanical testing on other woods. This work illustrates the fact that understanding and modeling the properties of wood is a complex task as the symmetry changes with scale. For example, lignin is isotropic, hemicellulose and cellulose are transversely isotropic, while the cells and microstructure have orthotropic symmetry. © 2007 Springer Science+Business Media, LLC.en_US
dc.formatpdfen_US
dc.language.isoenen_US
dc.relation.ispartofJournal of Materials Scienceen_US
dc.rights© Springeren_US
dc.subjectLiquid crystalsen_US
dc.subjectMixturesen_US
dc.subjectThermodynamicsen_US
dc.titleOn the anisotropic elastic properties of woodsen_US
dc.typeArticleen_US
dc.collaborationUniversity of Missouri-Kansas Cityen_US
dc.collaborationUniversity of Kansasen_US
dc.subject.categoryCivil Engineeringen_US
dc.journalsSubscriptionen_US
dc.countryUnited Statesen_US
dc.subject.fieldEngineering and Technologyen_US
dc.publicationPeer Revieweden_US
dc.identifier.doi10.1007/s10853-007-2121-9en_US
dc.identifier.scopus2-s2.0-36749045637en
dc.identifier.urlhttps://api.elsevier.com/content/abstract/scopus_id/36749045637en
dc.contributor.orcid#NODATA#en
dc.contributor.orcid#NODATA#en
dc.contributor.orcid#NODATA#en
dc.contributor.orcid#NODATA#en
dc.contributor.orcid#NODATA#en
dc.contributor.orcid#NODATA#en
dc.relation.issue1en_US
dc.relation.volume43en_US
cut.common.academicyear2007-2008en_US
dc.identifier.spage139en_US
dc.identifier.epage145en_US
item.cerifentitytypePublications-
item.openairetypearticle-
item.grantfulltextnone-
item.fulltextNo Fulltext-
item.languageiso639-1en-
item.openairecristypehttp://purl.org/coar/resource_type/c_6501-
crisitem.journal.journalissn1573-4803-
crisitem.journal.publisherSpringer Nature-
crisitem.author.deptDepartment of Civil Engineering and Geomatics-
crisitem.author.facultyFaculty of Engineering and Technology-
crisitem.author.parentorgFaculty of Engineering and Technology-
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