Posted by **arundhati** at Oct. 24, 2016

2014 | ISBN-10: 1569904871 | 736 pages | PDF | 48 MB

Posted by **tanas.olesya** at March 16, 2016

English | 30 Sept. 2004 | ISBN: 076801140X | 188 Pages | PDF | 10 MB

An essential guide for design engineers who use the Finite Element Analysis (FEA) during the product development process, this book turns the FEA into a productivity tool that will help to avoid costly and potentially dangerous mistakes.

Posted by **arundhati** at April 22, 2015

1995 | ISBN-10: 0727720279 | 512 pages | PDF | 14 MB

Posted by **advisors** at Dec. 23, 2014

2013 | 338 Pages | ISBN: 1447146360 | PDF | 15 MB

Posted by **enmoys** at March 26, 2014

2013 | 338 Pages | ISBN: 1447146360 | PDF | 15 MB

Posted by **ChrisRedfield** at Jan. 12, 2014

Published: 2008-10-01 | ISBN: 3540763422 | PDF | 255 pages | 3 MB

Posted by **tukotikko** at Oct. 27, 2013

2013 | 338 Pages | ISBN: 1447146360 | PDF | 15 MB

Posted by **enmoys** at Aug. 21, 2013

2004 | 212 Pages | ISBN: 076801140X | PDF | 11 MB

Posted by **loverka** at Sept. 18, 2010

Publisher: World Scientific Publishing Company | 1996 | Pages: 171 | ISBN: 1860940161 | PDF | 11,2 MB

Professor Fenner's definitive text is now back in print, with added corrections. It serves as an introduction to finite element methods for engineering undergraduates and other students at an equivalent level. Postgraduate and practising engineers will also find it useful if they are comparatively new to finite element methods.

The main emphasis is on the simplest methods suitable for solving two-dimensional continuum mechanics problems, particularly those encountered in the fields of stress analysis, fluid mechanics and heat transfer. Complete FORTRAN programs are presented, described and discussed in detail, and several practical case studies serve to illustrate the methods developed in the book.

Posted by **exLib** at June 4, 2016

ITexLi | 2016 | ISBN: 9535104748 9789535104742 | 507 pages | PDF | 35 MB

This book presents 20 different chapters in the application of Finite Elements, ranging from Biomedical Engineering to Manufacturing Industry and Industrial Developments. It has been written at a level suitable for use in a graduate course on applications of finite element modelling and analysis (mechanical, civil and biomedical engineering studies, for instance), without excluding its use by researchers or professional engineers interested in the field, seeking to gain a deeper understanding concerning Finite Element Analysis.