Torrent details for "Jiang S. Plastic Forming and Deformation of Metals...Multiscale …" Log in to bookmark
Controls:
×
Report Torrent
Please select a reason for reporting this torrent:
Your report will be reviewed by our moderation team.
×
Report Information
Loading report information...
This torrent has been reported 0 times.
Report Summary:
| User | Reason | Date |
|---|
Failed to load report information.
×
Success
Your report has been submitted successfully.
Checked by:
Category:
Language:
None
Total Size:
241.2 MB
Info Hash:
FED81AC6053A663E26CB87EC579E9A935BBBFBE4
Added By:
Added:
April 20, 2026, 10:31 a.m.
Stats:
|
(Last updated: April 20, 2026, 10:31 a.m.)
| File | Size |
|---|---|
| ['Jiang S. Plastic Forming and Deformation of Metals...Multiscale Simulation 2026.pdf'] | 0 bytes |
Name
DL
Uploader
Size
S/L
Added
-
241.2 MB
[28
/
38]
2026-04-20
| Uploaded by andryold1 | Size 241.2 MB | Health [ 28 /38 ] | Added 2026-04-20 |
NOTE
SOURCE: Jiang S. Plastic Forming and Deformation of Metals...Multiscale Simulation 2026
-----------------------------------------------------------------------------------
COVER
-----------------------------------------------------------------------------------
MEDIAINFO
Textbook in PDF format Using advanced simulation techniques, including macroscopic finite element, crystal plasticity finite element, cellular automata, discrete dislocation dynamics, molecular dynamics, and first-principles methods, the book reveals the fundamental physical nature of metal plastic deformation. It also establishes a complete theoretical framework. Taking a multidisciplinary approach, the study draws on mechanical manufacturing science, materials science, solid mechanics, quantum mechanics, and computational science. As such, it provides an integrated, panoramic view of multiscale simulation by combining classical scientific theories with modern numerical methods. All simulation cases are based on original research and demonstrate cutting-edge numerical technologies and pioneering approaches to understanding the plastic deformation mechanisms of metals by coupling multiscale simulation methods
×