| 036a | XA-DE‡XD-US |
| 037b | eng |
| 077a | 324348169 Buchausg. u.d.T.: ‡Litewka, Przemysław: Finite element analysis of beam-to-beam contact |
| 087q | 978-3-642-12939-1 |
| 100 | Litewka, Przemysław |
| 331 | Finite Element Analysis of Beam-to-Beam Contact |
| 410 | Berlin, Heidelberg |
| 412 | Springer-Verlag Berlin Heidelberg |
| 425 | 2010 |
| 425a | 2010 |
| 433 | Online-Ressource (175p, digital) |
| 451 | Lecture Notes in Applied and Computational Mechanics ; 53 |
| 454 | Lecture notes in applied and computational mechanics |
| 455 | 53 |
| 501 | Includes bibliographical references (p. [155]-159) |
| 517 | Title Page; Preface; Contents; Introduction; From the Ancient Egypt to the Computer Era; Frictionless Contact between Solids; Methods of Introduction of Contact Constraints; The Finite Element Method in Contact Analysis; Friction Constraints; Frictionless Beam-to-Beam Contact; Assumptions; Penetration Function; Contact Search; Weak Form and Kinematic Variables for Contact; Discretisation of Kinematic Variables; Residual Vector and Tangent Stiffness Matrix; Numerical Examples; Introduction; Example 1; Example 2; Example 3; Friction in Beam-to-Beam Contact; Friction Model. Kinematic Variables for FrictionWeak Form Components due to Friction; Discretization of Friction Terms Present in Weak Form; Residual Vector and Tangent Stiffness Matrix for Friction; Numerical Examples; Introduction; Example 1; Example 2; Example 3; Example 4; Example 5; Contact between Smoothed Beams; General Remarks on Smoothing of Contact Facets; Smoothing of 3D Curves; General Remarks; Inscribed Curve Algorithm; Node-Preserving Algorithm; Discretisation and Smooth Beam Contact Finite Elements; Inscribed Curve Elements; Node-Preserving Elements; Numerical Examples; Introduction; Example 1. Example 2Example 3; Example 4; Example 5; Example 6; Electric Contact; Introduction; Electro-mechanical Variables for Contact; Weak Formulation of Electro-mechanical Contact; Beam Finite Element for the Electric Current Flow; Discretisation and Electro-mechanical Contact Finite Element; Numerical Examples; Introduction; Example 1; Example 2; Example 3; Example 4; Example 5; Thermo-mechanical Coupling; Introduction; Thermo-mechanical Beam Finite Element; Variables for Thermo-mechanical Contact; Weak Form for Thermo-mechanical Contact. Discretisation and Thermo-mechanical Contact Beam Finite ElementNumerical Examples; Introduction; Example 1; Example 2; Summary and Outlook; Appendix 1 Matrices D and E for Beams with Rectangular Cross-Sections; Components of Matrix D; Components of Matrix E; Appendix 2 Derivation of Variables \Delta\delta\xi_{mn} and \Delta\delta\xi_{sn}; Appendix 3 Matrices G, H and M in Smoothing Procedures; Components of Matrix G; Components of Matrix H; Components of Matrix M; Bibliography |
| 527 | Buchausg. u.d.T.: ‡Litewka, Przemysław: Finite element analysis of beam-to-beam contact |
| 540a | ISBN 978-3-642-12940-7 |
| 700 | |TG |
| 700 | |TEC009070 |
| 700 | |TEC021000 |
| 700 | |*74-02 |
| 700 | |74S05 |
| 700 | |74M15 |
| 700 | |74M10 |
| 700 | |74K10 |
| 700b | |620.1 |
| 700b | |620.1050151825 |
| 700c | |TA405-409.3 |
| 700c | |QA808.2 |
| 750 | Phenomena occurring during a contact of two bodies are encountered in everyday life. In reality almost every type of motion is related to frictional contact between a moving body and a ground. Moreover, modeling of simple and more complex processes as nailing, cutting, vacuum pressing, movement of machines and their elements, rolling or, finally, a numerical simulation of car crash tests, requires taking contact into account.Therefore, its analysis has been a subject of many research efforts for a long time now. However, it is author`s opinion that there are relatively few efforts related to contact between structural elements, like beams, plates or shells. The purpose of this work is to fill this gap. It concerns the beam-to-beam contact as a specific case of the 3D solids contact. A numerical formulation of frictional contact for beams with two shapes of cross-section is derived. Further, a couple of effective methods for modeling of smooth curves representing beam axes are presented. A part of the book is also devoted to analyze some aspects of thermo-electro-mechanical coupling in contact of thermal and electric conductors. Analyses in every chapter are illustrated with numerical examples showing the performance of derived contact finite elements. |
| 902s | 20885536X Balken |
| 902s | 216503264 Kontaktmechanik |
| 902s | 208918914 Finite-Elemente-Methode |
| 907s | 20885536X Balken |
| 907s | 216503264 Kontaktmechanik |
| 907s | 208918914 Finite-Elemente-Methode |
| 012 | 323616046 |
| 081 | Litewka, Przemyslaw: Finite Element Analysis of Beam-to-Beam Contact |
| 100 | Springer E-Book |
| 125a | Elektronischer Volltext - Campuslizenz |
| 655e | $uhttp://dx.doi.org/10.1007/978-3-642-12940-7 |
