Posted by **Jeembo** at April 7, 2017

English | 2003 | ISBN: 0471486825 | 378 Pages | DJVU | 12.1 MB

A novel computational procedure called the scaled boundary finite-element method is described which combines the advantages of the finite-element and boundary-element methods

Posted by **Sangviniy** at March 29, 2017

English | Aug. 16, 2000 | ISBN: 0486411818 | 704 Pages | PDF | 129.53 MB

This text is geared toward assisting engineering and physical science students in cultivating comprehensive skills in linear static and dynamic finite element methodology. Based on courses taught at Stanford University and the California Institute of Technology, it ranges from fundamental concepts to practical computer implementations. Additional sections touch upon the frontiers of research, making the book of potential interest to more experienced analysts and researchers working in the finite element field.

Posted by **leonardo78** at March 13, 2017

Publisher: 0471289035 | 2003 | ISBN: 0471289035 | 375 pages | PDF + DJVU | (25,3 + 3,1) MB

A novel computational procedure called the scaled boundary finite-element method is described which combines the advantages of the finite-element and boundary-element methods : Of the finite-element method that no fundamental solution is required and thus expanding the scope of application, for instance to anisotropic material without an increase in complexity and that singular integrals are avoided and that symmetry of the results is automatically satisfied.

Posted by **interes** at Feb. 21, 2017

English | 2016 | ISBN: 1498780504 | 824 pages | PDF | 11 MB

Posted by **exLib** at Dec. 17, 2016

ITexLi | 2016 | ISBN: 9535128205 9535128191 9789535128199 9789535128205 | 273 pages | PDF | 76 MB

This book presents a current research by highlighting the vitality and potential of the finite elements for the future development of more efficient numerical techniques, new areas of application, and FEA's important role in practical engineering.

Posted by **roxul** at Dec. 8, 2016

English | ISBN: 1498723861 | 2016 | 278 pages | PDF | 92 MB

Posted by **TimMa** at Oct. 25, 2016

Butterworth-Heinemann | 2000 | ISBN: See List Under Cut | English | PDF | 1533 pages | 55 MB

In the years since the fourth edition of this seminal work was published, active research has further developed the Finite Element Method into the pre-eminent tool for the modelling of physical systems. Written by the pre-eminent professors in their fields, this new edition of the Finite Element Method maintains the comprehensive style of the earlier editions and authoritatively incorporates the latest developments of this dynamic field. …

Posted by **Underaglassmoon** at Oct. 15, 2016

Springer | Electromagnetic Theory | Oct 21 2016 | ISBN-10: 1498783570 | 212 pages | pdf | 6.98 mb

by JosÃ© Roberto Cardoso (Author)

Posted by **MoneyRich** at Dec. 27, 2014

English | June 15, 2009 | ISBN: 364200315X | 706 Pages | PDF | 5 MB

Advanced Finite Element Method in Structural Engineering systematically introduces the research work on the Finite Element Method (FEM), which was completed by Prof. Yu-qiu Long and his research group in the past 25 years. Seven original theoretical achievements - for instance, the Generalized Conforming Element method, to name one - and their applications in the fields of structural engineering and computational mechanics are discussed in detail. The book also shows the new strategies for avoiding five difficulties that exist in traditional FEM (shear-locking problem of thick plate elements; sensitivity problem to mesh distortion; non-convergence problem of non-conforming elements; accuracy loss problem of stress solutions by displacement-based elements; stress singular point problem) by utilizing foregoing achievements.

Posted by **AlenMiler** at Oct. 4, 2014

Springer; 2009 edition | June 15, 2009 | English | ISBN: 364200315X | 706 pages | PDF | 5 MB

Advanced Finite Element Method in Structural Engineering systematically introduces the research work on the Finite Element Method (FEM), which was completed by Prof. Yu-qiu Long and his research group in the past 25 years.