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Total Size:
52.3 MB
Info Hash:
3DC19467A70C1EAAE1CD649F3EEA215B4D6B2D29
Added By:
Added:
May 27, 2025, 11:32 a.m.
Stats:
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(Last updated: May 27, 2025, 11:33 a.m.)
| File | Size |
|---|---|
| Wang Q. Fatigue of Materials and Structures. Physics and Data Science 2025.pdf | 52.3 MB |
Name
DL
Uploader
Size
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Added
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52.3 MB
[82
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18]
2025-05-27
| Uploaded by andryold1 | Size 52.3 MB | Health [ 82 /18 ] | Added 2025-05-27 |
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17.5 KB
[46
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48]
2023-10-27
| Uploaded by DsignOptimal | Size 17.5 KB | Health [ 46 /48 ] | Added 2023-10-27 |
NOTE
SOURCE: Wang Q. Fatigue of Materials and Structures. Physics and Data Science 2025
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COVER
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MEDIAINFO
Textbook in PDF format Fatigue failure of engineering materials and structures has long been a great challenge for structural integrity, reliability and safety in mechanical, civil and aerospace engineering. These failure mechanisms and their modeling are critical concerns for managing aging structures, and directly affect sustainability across society. In this context, the fundamental theories and methods of fatigue failure of engineering materials and structures are discussed in detail. Fatigue damage accumulation, crack initiation and crack growth analysis are presented from materials to structures, deterministic to probabilistic fatigue, physics to data science, uniaxial to multiaxial fatigue, and extremely low cycle fatigue to very high cycle fatigue. The focus is on mechanical understanding and risk management for design, maintenance, and operation
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