Three-Dimensional Finite Element Model of Human Dent Facial Complex
Identifieur interne : 000757 ( Istex/Corpus ); précédent : 000756; suivant : 000758Three-Dimensional Finite Element Model of Human Dent Facial Complex
Auteurs : Yi Deng ; Xiaorong Zhang ; Ji Yao ; Haipeng ZhouSource :
- Lecture Notes in Electrical Engineering [ 1876-1100 ] ; 2013.
Abstract
Abstract: This study explains and demonstrates how to construct the 3-D finite element model of dent facial complex with the original DICOM data of CT, for the analysis of their biomechanical characters. The establishment of 3-D finite element model of maxillary complex: spiral CT scanner, then CT workstation outputted CT images in DICOM format to personal computer, using ANSYS and Mimics software established the 3-D finite element model of maxillary complex of human being. The establishment of maxillary complex three-dimensional finite element model, which was made up of 350125 units and 583391 nodes, included maxillary, arch wires, teeth of 14, maxilla cavity structures. Model and modeling were of the same size with a good geometric similarity. It had scalability which made it possible to attach brackets and wires, implants to start-related studies. The finite element model had better biomechanical characters. It was feasible and effective to the stress analysis in the process of orthodontic treatment.
Url:
DOI: 10.1007/978-3-642-35470-0_13
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The establishment of 3-D finite element model of maxillary complex: spiral CT scanner, then CT workstation outputted CT images in DICOM format to personal computer, using ANSYS and Mimics software established the 3-D finite element model of maxillary complex of human being. The establishment of maxillary complex three-dimensional finite element model, which was made up of 350125 units and 583391 nodes, included maxillary, arch wires, teeth of 14, maxilla cavity structures. Model and modeling were of the same size with a good geometric similarity. It had scalability which made it possible to attach brackets and wires, implants to start-related studies. The finite element model had better biomechanical characters. It was feasible and effective to the stress analysis in the process of orthodontic treatment.</div></front></TEI><istex><corpusName>springer-ebooks</corpusName><author><json:item><name>Yi Deng</name><affiliations><json:string>Department of Orthodontics. 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The establishment of 3-D finite element model of maxillary complex: spiral CT scanner, then CT workstation outputted CT images in DICOM format to personal computer, using ANSYS and Mimics software established the 3-D finite element model of maxillary complex of human being. The establishment of maxillary complex three-dimensional finite element model, which was made up of 350125 units and 583391 nodes, included maxillary, arch wires, teeth of 14, maxilla cavity structures. Model and modeling were of the same size with a good geometric similarity. It had scalability which made it possible to attach brackets and wires, implants to start-related studies. The finite element model had better biomechanical characters. It was feasible and effective to the stress analysis in the process of orthodontic treatment.</p></abstract><textClass><keywords scheme="Book-Subject-Collection"><list><label>SUCO11647</label><item><term>Engineering</term></item></list></keywords></textClass><textClass><keywords scheme="Book-Subject-Group"><list><label>SCT</label><label>SCT24035</label><label>SCT25023</label><label>SCU33000</label><label>SCI18008</label><item><term>Engineering</term></item><item><term>Communications Engineering, Networks</term></item><item><term>Renewable and Green Energy</term></item><item><term>Environmental Engineering/Biotechnology</term></item><item><term>Information Systems and Communication Service</term></item></list></keywords></textClass></profileDesc><revisionDesc><change when="2013-01-26">Published</change><change xml:id="refBibs-istex" who="#ISTEX-API" when="2017-11-28">References added</change></revisionDesc></teiHeader></istex:fulltextTEI><json:item><extension>txt</extension><original>false</original><mimetype>text/plain</mimetype><uri>https://api.istex.fr/document/C7C085AEABEF95F8F5892B25D8DBD088395DB59D/fulltext/txt</uri></json:item></fulltext><metadata><istex:metadataXml wicri:clean="corpus springer-ebooks not found" wicri:toSee="no header"><istex:xmlDeclaration>version="1.0" encoding="UTF-8"</istex:xmlDeclaration><istex:docType PUBLIC="-//Springer-Verlag//DTD A++ V2.4//EN" URI="http://devel.springer.de/A++/V2.4/DTD/A++V2.4.dtd" name="istex:docType"></istex:docType><istex:document><Publisher><PublisherInfo><PublisherName>Springer Berlin Heidelberg</PublisherName><PublisherLocation>Berlin, Heidelberg</PublisherLocation><PublisherImprintName>Springer</PublisherImprintName></PublisherInfo><Series><SeriesInfo ID="Series_1" SeriesType="Series" TocLevels="0"><SeriesID>7818</SeriesID><SeriesPrintISSN>1876-1100</SeriesPrintISSN><SeriesElectronicISSN>1876-1119</SeriesElectronicISSN><SeriesTitle Language="En">Lecture Notes in Electrical Engineering</SeriesTitle><SeriesAbbreviatedTitle>Lect. 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Heidelberg</CopyrightHolderName><CopyrightYear>2013</CopyrightYear></ChapterCopyright><ChapterHistory><RegistrationDate><Year>2012</Year><Month>11</Month><Day>21</Day></RegistrationDate><OnlineDate><Year>2013</Year><Month>1</Month><Day>26</Day></OnlineDate></ChapterHistory><ChapterContext><SeriesID>7818</SeriesID><PartID>2</PartID><BookID>978-3-642-35470-0</BookID><BookTitle>Proceedings of the 2nd International Conference on Green Communications and Networks 2012 (GCN 2012): Volume 3</BookTitle></ChapterContext></ChapterInfo><ChapterHeader><AuthorGroup><Author AffiliationIDS="Aff1" CorrespondingAffiliationID="Aff1"><AuthorName DisplayOrder="Western"><GivenName>Yi</GivenName><FamilyName>Deng</FamilyName></AuthorName><Contact><Email>kq-dy@163.com</Email></Contact></Author><Author AffiliationIDS="Aff1"><AuthorName DisplayOrder="Western"><GivenName>Xiaorong</GivenName><FamilyName>Zhang</FamilyName></AuthorName><Contact><Email>zhang-123@126.com</Email></Contact></Author><Author AffiliationIDS="Aff2"><AuthorName DisplayOrder="Western"><GivenName>Ji</GivenName><FamilyName>Yao</FamilyName></AuthorName><Contact><Email>yaoji7389@sina.com</Email></Contact></Author><Author AffiliationIDS="Aff2"><AuthorName DisplayOrder="Western"><GivenName>Haipeng</GivenName><FamilyName>Zhou</FamilyName></AuthorName><Contact><Email>peng-7123@126.com</Email></Contact></Author><Affiliation ID="Aff1"><OrgDivision>Department of Orthodontics. College of Stomatology</OrgDivision><OrgName>Kunming Medical College</OrgName><OrgAddress><City>Kunming</City><Country>China</Country></OrgAddress></Affiliation><Affiliation ID="Aff2"><OrgDivision>Department of Engineering Mechanics</OrgDivision><OrgName>Kunming University of Science and Technology</OrgName><OrgAddress><City>Kunming</City><Country>China</Country></OrgAddress></Affiliation></AuthorGroup><Abstract ID="Abs1" Language="En" OutputMedium="All"><Heading>Abstract</Heading><Para>This study explains and demonstrates how to construct the 3-D finite element model of dent facial complex with the original DICOM data of CT, for the analysis of their biomechanical characters. The establishment of 3-D finite element model of maxillary complex: spiral CT scanner, then CT workstation outputted CT images in DICOM format to personal computer, using ANSYS and Mimics software established the 3-D finite element model of maxillary complex of human being. The establishment of maxillary complex three-dimensional finite element model, which was made up of 350125 units and 583391 nodes, included maxillary, arch wires, teeth of 14, maxilla cavity structures. Model and modeling were of the same size with a good geometric similarity. It had scalability which made it possible to attach brackets and wires, implants to start-related studies. The finite element model had better biomechanical characters. It was feasible and effective to the stress analysis in the process of orthodontic treatment.</Para></Abstract><KeywordGroup Language="En" OutputMedium="All"><Heading>Keywords</Heading><Keyword>Maxilla</Keyword><Keyword>Human being</Keyword><Keyword>Three-dimensional finite element model</Keyword><Keyword>Finite element</Keyword><Keyword>Orthodontics</Keyword></KeywordGroup></ChapterHeader><NoBody></NoBody></Chapter></Part></Book></Series></Publisher></istex:document></istex:metadataXml><mods version="3.6"><titleInfo lang="en"><title>Three-Dimensional Finite Element Model of Human Dent Facial Complex</title></titleInfo><titleInfo type="alternative" contentType="CDATA" lang="en"><title>Three-Dimensional Finite Element Model of Human Dent Facial Complex</title></titleInfo><name type="personal" displayLabel="corresp"><namePart type="given">Yi</namePart><namePart type="family">Deng</namePart><affiliation>Department of Orthodontics. College of Stomatology, Kunming Medical College, Kunming, China</affiliation><affiliation>E-mail: kq-dy@163.com</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Xiaorong</namePart><namePart type="family">Zhang</namePart><affiliation>Department of Orthodontics. College of Stomatology, Kunming Medical College, Kunming, China</affiliation><affiliation>E-mail: zhang-123@126.com</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Ji</namePart><namePart type="family">Yao</namePart><affiliation>Department of Engineering Mechanics, Kunming University of Science and Technology, Kunming, China</affiliation><affiliation>E-mail: yaoji7389@sina.com</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Haipeng</namePart><namePart type="family">Zhou</namePart><affiliation>Department of Engineering Mechanics, Kunming University of Science and Technology, Kunming, China</affiliation><affiliation>E-mail: peng-7123@126.com</affiliation><role><roleTerm type="text">author</roleTerm></role></name><typeOfResource>text</typeOfResource><genre displayLabel="OriginalPaper" authority="ISTEX" authorityURI="https://content-type.data.istex.fr" type="conference" valueURI="https://content-type.data.istex.fr/ark:/67375/XTP-BFHXPBJJ-3">conference</genre><originInfo><publisher>Springer Berlin Heidelberg</publisher><place><placeTerm type="text">Berlin, Heidelberg</placeTerm></place><dateIssued encoding="w3cdtf">2013-01-26</dateIssued><copyrightDate encoding="w3cdtf">2013</copyrightDate></originInfo><language><languageTerm type="code" authority="rfc3066">en</languageTerm><languageTerm type="code" authority="iso639-2b">eng</languageTerm></language><abstract lang="en">Abstract: This study explains and demonstrates how to construct the 3-D finite element model of dent facial complex with the original DICOM data of CT, for the analysis of their biomechanical characters. The establishment of 3-D finite element model of maxillary complex: spiral CT scanner, then CT workstation outputted CT images in DICOM format to personal computer, using ANSYS and Mimics software established the 3-D finite element model of maxillary complex of human being. The establishment of maxillary complex three-dimensional finite element model, which was made up of 350125 units and 583391 nodes, included maxillary, arch wires, teeth of 14, maxilla cavity structures. Model and modeling were of the same size with a good geometric similarity. It had scalability which made it possible to attach brackets and wires, implants to start-related studies. The finite element model had better biomechanical characters. It was feasible and effective to the stress analysis in the process of orthodontic treatment.</abstract><relatedItem type="host"><titleInfo><title>Proceedings of the 2nd International Conference on Green Communications and Networks 2012 (GCN 2012): Volume 3</title></titleInfo><name type="personal"><namePart type="given">Yuhang</namePart><namePart type="family">Yang</namePart><affiliation>, Department of Electronic Engineering, Shanghai Jiao Tong University, Dongchuan Road 800, 200240, Shanghai, China, People's Republic</affiliation><affiliation>E-mail: yhyangsjtu@gmail.com</affiliation><role><roleTerm type="text">editor</roleTerm></role></name><name type="personal"><namePart type="given">Maode</namePart><namePart type="family">Ma</namePart><affiliation>, Electrical & Electronic Engineering, Nanyang Technological University, Nanyang Avenue, 639798, Singapore, Singapore</affiliation><affiliation>E-mail: emdma@ntu.edu.sg</affiliation><role><roleTerm type="text">editor</roleTerm></role></name><genre type="book-series" displayLabel="Proceedings" authority="ISTEX" authorityURI="https://publication-type.data.istex.fr" valueURI="https://publication-type.data.istex.fr/ark:/67375/JMC-0G6R5W5T-Z">book-series</genre><originInfo><publisher>Springer</publisher><copyrightDate encoding="w3cdtf">2013</copyrightDate><issuance>monographic</issuance><edition>2013</edition></originInfo><subject><genre>Book-Subject-Collection</genre><topic authority="SpringerSubjectCodes" authorityURI="SUCO11647">Engineering</topic></subject><subject><genre>Book-Subject-Group</genre><topic authority="SpringerSubjectCodes" authorityURI="SCT">Engineering</topic><topic authority="SpringerSubjectCodes" authorityURI="SCT24035">Communications Engineering, Networks</topic><topic authority="SpringerSubjectCodes" authorityURI="SCT25023">Renewable and Green Energy</topic><topic authority="SpringerSubjectCodes" authorityURI="SCU33000">Environmental Engineering/Biotechnology</topic><topic authority="SpringerSubjectCodes" authorityURI="SCI18008">Information Systems and Communication Service</topic></subject><identifier type="DOI">10.1007/978-3-642-35470-0</identifier><identifier type="ISBN">978-3-642-35469-4</identifier><identifier type="eISBN">978-3-642-35470-0</identifier><identifier type="ISSN">1876-1100</identifier><identifier type="eISSN">1876-1119</identifier><identifier type="BookTitleID">310301</identifier><identifier type="BookID">978-3-642-35470-0</identifier><identifier type="BookChapterCount">97</identifier><identifier type="BookVolumeNumber">225</identifier><identifier type="BookSequenceNumber">225</identifier><identifier type="PartChapterCount">9</identifier><part><date>2013</date><detail type="part"><title>Intelligent Evolutionary Algorithm</title></detail><detail type="volume"><number>225</number><caption>vol.</caption></detail><detail type="chapter"><number>Chapter 13</number></detail><extent unit="pages"><start>101</start><end>109</end></extent></part><recordInfo><recordOrigin>Springer-Verlag Berlin Heidelberg, 2013</recordOrigin></recordInfo></relatedItem><relatedItem type="series"><titleInfo><title>Lecture Notes in Electrical Engineering</title></titleInfo><originInfo><publisher>Springer</publisher><copyrightDate encoding="w3cdtf">2013</copyrightDate><issuance>serial</issuance></originInfo><identifier type="ISSN">1876-1100</identifier><identifier type="eISSN">1876-1119</identifier><identifier type="SeriesID">7818</identifier><part><detail type="chapter"><number>Chapter 13</number></detail></part><recordInfo><recordOrigin>Springer-Verlag Berlin Heidelberg, 2013</recordOrigin></recordInfo></relatedItem><identifier type="istex">C7C085AEABEF95F8F5892B25D8DBD088395DB59D</identifier><identifier type="ark">ark:/67375/HCB-HCDM2B1B-H</identifier><identifier type="DOI">10.1007/978-3-642-35470-0_13</identifier><identifier type="ChapterID">13</identifier><identifier type="ChapterID">Chap13</identifier><accessCondition type="use and reproduction" contentType="copyright">Springer-Verlag Berlin Heidelberg, 2013</accessCondition><recordInfo><recordContentSource authority="ISTEX" authorityURI="https://loaded-corpus.data.istex.fr" valueURI="https://loaded-corpus.data.istex.fr/ark:/67375/XBH-3XSW68JL-F">springer</recordContentSource><recordOrigin>Springer-Verlag Berlin Heidelberg, 2013</recordOrigin></recordInfo></mods><json:item><extension>json</extension><original>false</original><mimetype>application/json</mimetype><uri>https://api.istex.fr/document/C7C085AEABEF95F8F5892B25D8DBD088395DB59D/metadata/json</uri></json:item></metadata></istex></record>Pour manipuler ce document sous Unix (Dilib)
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