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Kleeberger M, Hübner K (2006). Using Superelements in the Calculation of Lattice-Boom Cranes. Logistics Journal : referierte Veröffentlichungen, Vol. 2006. (urn:nbn:de:0009-14-7675)
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%0 Journal Article %T Using Superelements in the Calculation of Lattice-Boom Cranes %A Kleeberger, Michael %A Hübner, Karl-Thomas %J Logistics Journal : referierte Veröffentlichungen %D 2006 %V 2006 %N Dezember %@ 1860-7977 %F kleeberger2006 %X In this paper a superelement formulation for geometric nonlinear finite element analysis is proposed. The element formulation is based on matrices generated by the static condensation algorithm. After defining the element characteristics, a method for the calculation of the element forces in a large displacement and rotation analysis is developed. In order to use the element in the solution of stability problems, the formulation of the geometric stiffness matrix is derived. An example shows the benefits of the element for the calculation of lattice-boom cranes. %L 620 %K Intralogistics %K Intralogistik %K Logistics %K Material flow %K intra logistics %K technical logistics %R 10.2195/LJ_Ref_E_Kleeberger_122006 %U http://nbn-resolving.de/urn:nbn:de:0009-14-7675 %U http://dx.doi.org/10.2195/LJ_Ref_E_Kleeberger_122006Download
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@Article{kleeberger2006, author = "Kleeberger, Michael and H{\"u}bner, Karl-Thomas", title = "Using Superelements in the Calculation of Lattice-Boom Cranes", journal = "Logistics Journal : referierte Ver{\"o}ffentlichungen", year = "2006", volume = "2006", number = "Dezember", keywords = "Intralogistics; Intralogistik; Logistics; Material flow; intra logistics; technical logistics", abstract = "In this paper a superelement formulation for geometric nonlinear finite element analysis is proposed. The element formulation is based on matrices generated by the static condensation algorithm. After defining the element characteristics, a method for the calculation of the element forces in a large displacement and rotation analysis is developed. In order to use the element in the solution of stability problems, the formulation of the geometric stiffness matrix is derived. An example shows the benefits of the element for the calculation of lattice-boom cranes.", issn = "1860-7977", doi = "10.2195/LJ_Ref_E_Kleeberger_122006", url = "http://nbn-resolving.de/urn:nbn:de:0009-14-7675" }Download
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TY - JOUR AU - Kleeberger, Michael AU - Hübner, Karl-Thomas PY - 2006 DA - 2006// TI - Using Superelements in the Calculation of Lattice-Boom Cranes JO - Logistics Journal : referierte Veröffentlichungen VL - 2006 IS - Dezember KW - Intralogistics KW - Intralogistik KW - Logistics KW - Material flow KW - intra logistics KW - technical logistics AB - In this paper a superelement formulation for geometric nonlinear finite element analysis is proposed. The element formulation is based on matrices generated by the static condensation algorithm. After defining the element characteristics, a method for the calculation of the element forces in a large displacement and rotation analysis is developed. In order to use the element in the solution of stability problems, the formulation of the geometric stiffness matrix is derived. An example shows the benefits of the element for the calculation of lattice-boom cranes. SN - 1860-7977 UR - http://nbn-resolving.de/urn:nbn:de:0009-14-7675 DO - 10.2195/LJ_Ref_E_Kleeberger_122006 ID - kleeberger2006 ER -Download
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<?xml version="1.0" encoding="UTF-8"?> <b:Sources SelectedStyle="" xmlns:b="http://schemas.openxmlformats.org/officeDocument/2006/bibliography" xmlns="http://schemas.openxmlformats.org/officeDocument/2006/bibliography" > <b:Source> <b:Tag>kleeberger2006</b:Tag> <b:SourceType>ArticleInAPeriodical</b:SourceType> <b:Year>2006</b:Year> <b:PeriodicalTitle>Logistics Journal : referierte Veröffentlichungen</b:PeriodicalTitle> <b:Volume>2006</b:Volume> <b:Issue>Dezember</b:Issue> <b:Url>http://nbn-resolving.de/urn:nbn:de:0009-14-7675</b:Url> <b:Url>http://dx.doi.org/10.2195/LJ_Ref_E_Kleeberger_122006</b:Url> <b:Author> <b:Author><b:NameList> <b:Person><b:Last>Kleeberger</b:Last><b:First>Michael</b:First></b:Person> <b:Person><b:Last>Hübner</b:Last><b:First>Karl-Thomas</b:First></b:Person> </b:NameList></b:Author> </b:Author> <b:Title>Using Superelements in the Calculation of Lattice-Boom Cranes</b:Title> <b:Comments>In this paper a superelement formulation for geometric nonlinear finite element analysis is proposed. The element formulation is based on matrices generated by the static condensation algorithm. After defining the element characteristics, a method for the calculation of the element forces in a large displacement and rotation analysis is developed. In order to use the element in the solution of stability problems, the formulation of the geometric stiffness matrix is derived. An example shows the benefits of the element for the calculation of lattice-boom cranes.</b:Comments> </b:Source> </b:Sources>Download
ISI
PT Journal AU Kleeberger, M Hübner, K TI Using Superelements in the Calculation of Lattice-Boom Cranes SO Logistics Journal : referierte Veröffentlichungen PY 2006 VL 2006 IS Dezember DI 10.2195/LJ_Ref_E_Kleeberger_122006 DE Intralogistics; Intralogistik; Logistics; Material flow; intra logistics; technical logistics AB In this paper a superelement formulation for geometric nonlinear finite element analysis is proposed. The element formulation is based on matrices generated by the static condensation algorithm. After defining the element characteristics, a method for the calculation of the element forces in a large displacement and rotation analysis is developed. In order to use the element in the solution of stability problems, the formulation of the geometric stiffness matrix is derived. An example shows the benefits of the element for the calculation of lattice-boom cranes. ERDownload
Mods
<mods> <titleInfo> <title>Using Superelements in the Calculation of Lattice-Boom Cranes</title> </titleInfo> <name type="personal"> <namePart type="family">Kleeberger</namePart> <namePart type="given">Michael</namePart> </name> <name type="personal"> <namePart type="family">Hübner</namePart> <namePart type="given">Karl-Thomas</namePart> </name> <abstract>In this paper a superelement formulation for geometric nonlinear finite element analysis is proposed. The element formulation is based on matrices generated by the static condensation algorithm. After defining the element characteristics, a method for the calculation of the element forces in a large displacement and rotation analysis is developed. In order to use the element in the solution of stability problems, the formulation of the geometric stiffness matrix is derived. An example shows the benefits of the element for the calculation of lattice-boom cranes.</abstract> <subject> <topic>Intralogistics</topic> <topic>Intralogistik</topic> <topic>Logistics</topic> <topic>Material flow</topic> <topic>intra logistics</topic> <topic>technical logistics</topic> </subject> <classification authority="ddc">620</classification> <relatedItem type="host"> <genre authority="marcgt">periodical</genre> <genre>academic journal</genre> <titleInfo> <title>Logistics Journal : referierte Veröffentlichungen</title> </titleInfo> <part> <detail type="volume"> <number>2006</number> </detail> <detail type="issue"> <number>Dezember</number> </detail> <date>2006</date> </part> </relatedItem> <identifier type="issn">1860-7977</identifier> <identifier type="urn">urn:nbn:de:0009-14-7675</identifier> <identifier type="doi">10.2195/LJ_Ref_E_Kleeberger_122006</identifier> <identifier type="uri">http://nbn-resolving.de/urn:nbn:de:0009-14-7675</identifier> <identifier type="citekey">kleeberger2006</identifier> </mods>Download
Full Metadata
Bibliographic Citation | Logistics Journal : referierte Veröffentlichungen, Vol. 2006, Iss. Dezember |
---|---|
Title |
Using Superelements in the Calculation of Lattice-Boom Cranes (eng) |
Author | Michael Kleeberger, Karl-Thomas Hübner |
Language | eng |
Abstract | In this paper a superelement formulation for geometric nonlinear finite element analysis is proposed. The element formulation is based on matrices generated by the static condensation algorithm. After defining the element characteristics, a method for the calculation of the element forces in a large displacement and rotation analysis is developed. In order to use the element in the solution of stability problems, the formulation of the geometric stiffness matrix is derived. An example shows the benefits of the element for the calculation of lattice-boom cranes. |
Subject | Intralogistics, Intralogistik, Logistics, Material flow, intra logistics, technical logistics |
DDC | 620 |
Rights | DPPL |
URN: | urn:nbn:de:0009-14-7675 |
DOI | https://doi.org/10.2195/LJ_Ref_E_Kleeberger_122006 |