Accession Number : ADA444720


Title :   A Geometric Framework for the Kinematics of Crystals With Defects


Descriptive Note : Reprint


Corporate Author : ARMY RESEARCH LAB ABERDEEN PROVING GROUND MD WEAPONS AND MATERIALS RESEARCH DIRECTORATE


Personal Author(s) : Clayton, John D ; Bammann, Douglas J ; McDowell, David L


Full Text : https://apps.dtic.mil/dtic/tr/fulltext/u2/a444720.pdf


Report Date : Feb 2006


Pagination or Media Count : 35


Abstract : Presented is a general theoretical framework capable of describing the finite deformation kinematics of several classes of defects prevalent in metallic crystals. Our treatment relies upon powerful tools from differential geometry, including linear connections and covariant differentiation, torsion, curvature, and anholonomic spaces. A length scale dependent, three-term multiplicative decomposition of the deformation gradient is suggested, with terms representing recoverable elasticity, residual lattice deformation due to defect fields, and plastic deformation resulting from defect fluxes. Also proposed is an additional micromorphic variable representing additional degrees-of-freedom associated with rotational lattice defects (i.e. disclinations), point defects, and, most generally, Somigliana dislocations. We illustrate how particular implementations of our general framework encompass notable theories from the literature and classify particular versions of the framework via geometric terminology.


Descriptors :   *DEFORMATION , *DEGREES OF FREEDOM , *DISLOCATIONS , REPRINTS , THEORY , DEFECT ANALYSIS , DIFFERENTIAL GEOMETRY , LATTICE DYNAMICS , CRYSTALS , ELASTIC PROPERTIES , MODELS


Subject Categories : Statistics and Probability
      Crystallography


Distribution Statement : APPROVED FOR PUBLIC RELEASE