Partition of Unity Methods
Partition of Unity Methods
- ISBN 13:
9780470667088
- ISBN 10:
0470667087
- Edition: 1st
- Format: Hardcover
- Copyright: 11/06/2023
- Publisher: Wiley
List Price $133.33 Save
TERM | PRICE | DUE |
---|---|---|
Free Shipping Both Ways
Highlight/Take Notes Like You Own It
Purchase/Extend Before Due Date
List Price $133.33 Save $1.33
Usually Ships in 3-4 Business Days
We Buy This Book Back!
Free Shipping On Every Order
Note: Supplemental materials are not guaranteed with Rental or Used book purchases.
Extend or Purchase Your Rental at Any Time
Need to keep your rental past your due date? At any time before your due date you can extend or purchase your rental through your account.
Summary
A revolution similar to that initiated by the FEM is taking place through the XFEM, which is already implemented in leading commercial packages (ABAQUS, ANSYS, etc.) that are taught at undergraduate and post-graduate levels and to industrial end-users.
XFEM provides a detailed overview of the basics around the newly introduced extended finite element method for applications in solving moving boundary problems. XFEM is introduced naturally as an extension of FEM, through simple one dimensional examples which then allow the introduction of higher-dimensional problems. Throughout the book, each key concept is highlighted by the corresponding piece of MATLAB code which is provided via an accompanying web portal. Uniquely, this portal allows readers to obtain real-time feedback and help from an existing community of more than 130 researchers and industrialists.
- Demystifies the theory behind XFEM and makes it accessible to all with previous knowledge of the FEM
- Provides a simple introduction to XFEM but also provides a range of tools which the reader can build upon to take on a large breadth of more complex problems.
- Presents each key theoretical concept in parallel with its implementational aspects in the form of simple MATLAB routines provided along with the book via an interactive companion website and portal
- Provides a detailed account of applications of XFEM to fracture mechanics, including techniques absent from current literature