Atomic-Level Observation of Disclination Dipoles in Mechanically Milled, Nanocrystalline Fe
Plastic deformation of materials occurs by the motion of defects known as dislocations and disclinations. High-resolution transmission electron microscopy was used to directly reveal the individual dislocations that constitute partial disclination dipoles in nanocrystalline, body-centered cubic iron...
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| Veröffentlicht in: | Science (American Association for the Advancement of Science) 2002-03, Vol.295 (5564), p.2433-2435 |
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| creator | Murayama, M. Howe, J. M. Hidaka, H. Takaki, S. |
| description | Plastic deformation of materials occurs by the motion of defects known as dislocations and disclinations. High-resolution transmission electron microscopy was used to directly reveal the individual dislocations that constitute partial disclination dipoles in nanocrystalline, body-centered cubic iron that had undergone severe plastic deformation by mechanical milling. The mechanisms by which the formation and migration of such partial disclination dipoles during deformation allow crystalline solids to fragment and rotate at the nanometer level are described. Such rearrangements are important basic phenomena that occur during material deformation, and hence, they may be critical in the formation of nanocrystalline metals by mechanical milling and other deformation processes. |
| doi_str_mv | 10.1126/science.1067430 |
| format | Article |
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M. ; Hidaka, H. ; Takaki, S.</creator><creatorcontrib>Murayama, M. ; Howe, J. M. ; Hidaka, H. ; Takaki, S.</creatorcontrib><description>Plastic deformation of materials occurs by the motion of defects known as dislocations and disclinations. High-resolution transmission electron microscopy was used to directly reveal the individual dislocations that constitute partial disclination dipoles in nanocrystalline, body-centered cubic iron that had undergone severe plastic deformation by mechanical milling. The mechanisms by which the formation and migration of such partial disclination dipoles during deformation allow crystalline solids to fragment and rotate at the nanometer level are described. Such rearrangements are important basic phenomena that occur during material deformation, and hence, they may be critical in the formation of nanocrystalline metals by mechanical milling and other deformation processes.</description><identifier>ISSN: 0036-8075</identifier><identifier>EISSN: 1095-9203</identifier><identifier>DOI: 10.1126/science.1067430</identifier><identifier>PMID: 11923534</identifier><identifier>CODEN: SCIEAS</identifier><language>eng</language><publisher>Washington, DC: American Society for the Advancement of Science</publisher><subject>Alloys ; Applied sciences ; Atomic structure ; Condensed matter: structure, mechanical and thermal properties ; Cross-disciplinary physics: materials science; rheology ; Crystals ; Defects and impurities in crystals; microstructure ; Deformation ; Exact sciences and technology ; Grain boundaries ; Iron ; Laboratory Equipment ; Linear defects: dislocations, disclinations ; Magnetic fields ; Materials ; Materials science ; Metals. 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M.</creatorcontrib><creatorcontrib>Hidaka, H.</creatorcontrib><creatorcontrib>Takaki, S.</creatorcontrib><title>Atomic-Level Observation of Disclination Dipoles in Mechanically Milled, Nanocrystalline Fe</title><title>Science (American Association for the Advancement of Science)</title><addtitle>Science</addtitle><description>Plastic deformation of materials occurs by the motion of defects known as dislocations and disclinations. High-resolution transmission electron microscopy was used to directly reveal the individual dislocations that constitute partial disclination dipoles in nanocrystalline, body-centered cubic iron that had undergone severe plastic deformation by mechanical milling. The mechanisms by which the formation and migration of such partial disclination dipoles during deformation allow crystalline solids to fragment and rotate at the nanometer level are described. Such rearrangements are important basic phenomena that occur during material deformation, and hence, they may be critical in the formation of nanocrystalline metals by mechanical milling and other deformation processes.</description><subject>Alloys</subject><subject>Applied sciences</subject><subject>Atomic structure</subject><subject>Condensed matter: structure, mechanical and thermal properties</subject><subject>Cross-disciplinary physics: materials science; rheology</subject><subject>Crystals</subject><subject>Defects and impurities in crystals; microstructure</subject><subject>Deformation</subject><subject>Exact sciences and technology</subject><subject>Grain boundaries</subject><subject>Iron</subject><subject>Laboratory Equipment</subject><subject>Linear defects: dislocations, disclinations</subject><subject>Magnetic fields</subject><subject>Materials</subject><subject>Materials science</subject><subject>Metals. Metallurgy</subject><subject>Methods</subject><subject>Milling (Metals)</subject><subject>Milling (Metalwork)</subject><subject>Nanoscale materials and structures: fabrication and characterization</subject><subject>Observation</subject><subject>Physics</subject><subject>Plasticity</subject><subject>Plastics</subject><subject>Rotation</subject><subject>Scientific imaging</subject><subject>Structure of solids and liquids; crystallography</subject><issn>0036-8075</issn><issn>1095-9203</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2002</creationdate><recordtype>article</recordtype><sourceid>8G5</sourceid><sourceid>BEC</sourceid><sourceid>BENPR</sourceid><sourceid>GUQSH</sourceid><sourceid>M2O</sourceid><recordid>eNqN08tv0zAYAPAIgVgpnLkgFE0CcWg2O44fOZaOlUndeuBx4RA5zpfiyrWLnU70v8coEVNRpVU-WLZ_fn9fkrzG6ALjnF0GpcEquMCI8YKgJ8kIo5JmZY7I02SEEGGZQJyeJS9CWCMUx0ryPDnDuMwJJcUo-THt3EarbAH3YNJlHcDfy047m7o2vdJBGW379pXeOgMh1Ta9BfVTWq2kMfv0VhsDzSS9k9Ypvw9d7NUW0mt4mTxrpQnwaqjHybfrT19nn7PFcn4zmy4yxXnRZUVNZcNzKUWOCRFCAie05iUrWklQQZhQJS2kRIw1tZKS4YaivEYCs7oWRUHGyft-3a13v3YQumoTDw7GSAtuFyqOKWe8JI9CwuJ-Qjy-Ys45Zyw-7zg5_w-u3c7beNsqXoYhHF1Ekx6tpIFK29Z1XqoVWPDSOAutjt1TUYgCM5pHnh3hsTQQf-qY_3DgI-ngd7eSuxCqmy93J9Pl95Ppx_mpVMwXB3RyjCoXY2gFVQyL2fKAX_ZceReCh7baer2Rfl9hVP1NgGpIgGpIgDjj7fAhu3oDzYMfIj6CdwOQIQZw66VVOjw4QktOcxrdm96tQ-f8v3GCOMOMkz_CSxIw</recordid><startdate>20020329</startdate><enddate>20020329</enddate><creator>Murayama, M.</creator><creator>Howe, J. 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M.</au><au>Hidaka, H.</au><au>Takaki, S.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Atomic-Level Observation of Disclination Dipoles in Mechanically Milled, Nanocrystalline Fe</atitle><jtitle>Science (American Association for the Advancement of Science)</jtitle><addtitle>Science</addtitle><date>2002-03-29</date><risdate>2002</risdate><volume>295</volume><issue>5564</issue><spage>2433</spage><epage>2435</epage><pages>2433-2435</pages><issn>0036-8075</issn><eissn>1095-9203</eissn><coden>SCIEAS</coden><abstract>Plastic deformation of materials occurs by the motion of defects known as dislocations and disclinations. High-resolution transmission electron microscopy was used to directly reveal the individual dislocations that constitute partial disclination dipoles in nanocrystalline, body-centered cubic iron that had undergone severe plastic deformation by mechanical milling. The mechanisms by which the formation and migration of such partial disclination dipoles during deformation allow crystalline solids to fragment and rotate at the nanometer level are described. Such rearrangements are important basic phenomena that occur during material deformation, and hence, they may be critical in the formation of nanocrystalline metals by mechanical milling and other deformation processes.</abstract><cop>Washington, DC</cop><pub>American Society for the Advancement of Science</pub><pmid>11923534</pmid><doi>10.1126/science.1067430</doi><tpages>3</tpages></addata></record> |
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| source | American Association for the Advancement of Science; Jstor Complete Legacy |
| subjects | Alloys Applied sciences Atomic structure Condensed matter: structure, mechanical and thermal properties Cross-disciplinary physics: materials science rheology Crystals Defects and impurities in crystals microstructure Deformation Exact sciences and technology Grain boundaries Iron Laboratory Equipment Linear defects: dislocations, disclinations Magnetic fields Materials Materials science Metals. Metallurgy Methods Milling (Metals) Milling (Metalwork) Nanoscale materials and structures: fabrication and characterization Observation Physics Plasticity Plastics Rotation Scientific imaging Structure of solids and liquids crystallography |
| title | Atomic-Level Observation of Disclination Dipoles in Mechanically Milled, Nanocrystalline Fe |
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