Suchergebnisse
UB Katalog
Artikel & mehr
Suchmaske
Suchergebnisse einschränken oder erweitern
Aktive Suchfilter
Weniger Treffer
Gefunden in
Art der Quelle
Schlagwort
- fracture mechanics 30 Treffer
- stainless steel 20 Treffer
- crack growth rate 17 Treffer
- alloys 12 Treffer
- c. stress corrosion 12 Treffer
-
45 weitere Werte:
- welded joints 11 Treffer
- b. sem 9 Treffer
- c. welding 9 Treffer
- dissolved oxygen in water 9 Treffer
- austenitic stainless steel 8 Treffer
- high temperatures 7 Treffer
- stress corrosion 7 Treffer
- water 7 Treffer
- a. alloy 6 Treffer
- a. nickel 6 Treffer
- a. stainless steel 6 Treffer
- artificial neural networks 6 Treffer
- b. modeling studies 6 Treffer
- boiling water reactors 6 Treffer
- cold work 6 Treffer
- corrosion fatigue 6 Treffer
- crack propagation (fracture mechanics) 6 Treffer
- microstructure 6 Treffer
- simulation methods & models 6 Treffer
- supercritical water 6 Treffer
- creep 5 Treffer
- inconel 5 Treffer
- neutron irradiation 5 Treffer
- pressurized water reactors 5 Treffer
- strain hardening 5 Treffer
- water chemistry 5 Treffer
- alloy 690 4 Treffer
- crack growth rates 4 Treffer
- crystal grain boundaries 4 Treffer
- dissolved oxygen 4 Treffer
- hot water 4 Treffer
- a. low alloy steel 3 Treffer
- acceleration (mechanics) 3 Treffer
- alloy 600 3 Treffer
- artificial seawater 3 Treffer
- b. tem 3 Treffer
- brittle fractures 3 Treffer
- buffer solutions 3 Treffer
- c. crack growth rate 3 Treffer
- c. stress corrosion cracking 3 Treffer
- carbides 3 Treffer
- coolants 3 Treffer
- corrosion fatigue of metals 3 Treffer
- crack growth 3 Treffer
- cracking of pipelines 3 Treffer
Publikation
Sprache
63 Treffer
-
In: Nuclear Engineering & Design, Jg. 421 (2024-05-01), S. N.PAGacademicJournalZugriff:
-
In: Journal of Nuclear Materials, Jg. 588 (2024), S. N.PAGacademicJournalZugriff:
-
In: Corrosion Science, Jg. 224 (2023-11-01), S. N.PAGacademicJournalZugriff:
-
In: Nuclear Engineering & Design, Jg. 412 (2023-10-01), S. N.PAGacademicJournalZugriff:
-
In: Journal of Nuclear Materials, Jg. 523 (2019-09-01), S. 276-290academicJournalZugriff:
-
In: Journal of Nuclear Materials, Jg. 522 (2019-08-15), S. 220-225academicJournalZugriff:
-
In: Engineering Failure Analysis, Jg. 102 (2019-08-01), S. 102-110academicJournalZugriff:
-
In: Journal of Nuclear Materials, Jg. 583 (2023-09-01), S. N.PAGacademicJournalZugriff:
-
In: Acta Materialia, Jg. 165 (2019-02-15), S. 73-86academicJournalZugriff:
-
In: Corrosion Science, Jg. 147 (2019-02-01), S. 69-80academicJournalZugriff:
-
In: Corrosion Science, Jg. 139 (2018-07-15), S. 58-67academicJournalZugriff:
-
In: Journal of Nuclear Materials, Jg. 503 (2018-05-01), S. 124-139academicJournalZugriff:
-
In: Journal of Nuclear Materials, Jg. 498 (2018), S. 117-128academicJournalZugriff:
-
In: Journal of Nuclear Materials, Jg. 492 (2017-08-15), S. 32-40academicJournalZugriff:
-
In: Corrosion Science, Jg. 120 (2017-05-15), S. 219-230academicJournalZugriff:
-
In: Corrosion Science, Jg. 112 (2016-11-01), S. 373-384academicJournalZugriff:
-
In: Nuclear Engineering & Design, Jg. 307 (2016-10-01), S. 411-417academicJournalZugriff:
-
In: Acta Materialia, Jg. 114 (2016-08-01), S. 15-24academicJournalZugriff:
-
In: Progress in Nuclear Energy, Jg. 147 (2022-05-01), S. N.PAGacademicJournalZugriff:
-
In: Corrosion Science, Jg. 198 (2022-04-15), S. N.PAGacademicJournalZugriff: