Nur online erhältlich
Neu

Delamination of Ceramic Top Coat in Thermal Barrier Coatings Subjected to Thermo-Mechanical Fatigue Loading

Thermo-mechanical fatigue (TMF) tests of a Ni-base superalloy thermal barrier coating (TBCs) specimen were carried out, where the experimental variables were the phase angle between mechanical strain/temperature, and the maximum and minimum temperatures. A computed tomography system was employed to inspect the internal damage inside of the TBCs. Whereas several types of fracture modes were seen depending on the TMF test conditions, the delamination cracks were specific along the bond/top coat interface in the ceramic top coat, which might be nucleated as an influence of thermally grown oxide (TGO). Special focus was paid to get basic understandings on the underlining failure mechanism and the quantification of the ceramic top coat delamination. For this purpose a new mechanistic model…

25,00 €

Bruttopreis

Menge

Datenschutzbedingungen (bearbeiten im Modul "Kundenvorteile")

Lieferbedingungen (bearbeiten im Modul "Kundenvorteile")

Rücksendebedingungen (bearbeiten im Modul "Kundenvorteile")

Produktdetails
Beschreibung

Artikelnummer: LCF10-2026-014

Titel: Delamination of Ceramic Top Coat in Thermal Barrier Coatings Subjected to Thermo-Mechanical Fatigue Loading
Autor(en): M. Okazaki, S. Yamagishi
DOI: 10.48447/LCF10-2026-014
Veranstaltung: Tenth International Conference on Low Cycle Fatigue (LCF-10)
Jahr der Veröffentlichung: 2026
Publikationsart: Tagungsmanuskript (PDF)
Sprache: Englisch
Stichwörter: Thermal Barrier Coatings,Thermo-Mechanical Fatigue Loadings,Fracture Modes,Fracture Mechanisms,Thermally Grown Oxide (TGO)

17 andere Artikel in der gleichen Kategorie:

Autor(en): A. Ince

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Physics-informed neural network framework for fatigue crack growth prediction in LPBF alloys: Integrating process parameters, material strength, and fracture mechanics
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12864
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => A.   Ince
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12861
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-028
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12862
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => physics-informed neural network (PINN),deep neural networks (DNN),crack growth,machine learning (ML),additive manufacturing (AM)
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12863
        )

)
1

Physics-informed neural network framework for fatigue crack growth prediction in LPBF alloys: Integrating process parameters, material strength, and fracture mechanics

Publikationsart: Tagungsmanuskript (PDF)

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Physics-informed neural network framework for fatigue crack growth prediction in LPBF alloys: Integrating process parameters, material strength, and fracture mechanics
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12864
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => A.   Ince
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12861
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-028
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12862
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => physics-informed neural network (PINN),deep neural networks (DNN),crack growth,machine learning (ML),additive manufacturing (AM)
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12863
        )

)
1

Englisch

25,00 €

Nur online erhältlich Neu

Autor(en): F. Ebling, H. Oesterlin, A. Pundt, T. Michler

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Modeling low cycle fatigue life of alloy 718 in a hydrogen environment
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12892
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => F.   Ebling, H.   Oesterlin, A.   Pundt, T.   Michler
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12889
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-059
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12890
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => 
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12891
        )

)
1

Modeling low cycle fatigue life of alloy 718 in a hydrogen environment

Publikationsart: Tagungsmanuskript (PDF)

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Modeling low cycle fatigue life of alloy 718 in a hydrogen environment
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12892
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => F.   Ebling, H.   Oesterlin, A.   Pundt, T.   Michler
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12889
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-059
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12890
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => 
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12891
        )

)
1

Englisch

25,00 €

Nur online erhältlich Neu

Autor(en): D. Heyerhoff, T. Babinský, S. Antusch, I. Šulák, S. Guth

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Suitability of As-Built Electron Beam Melted Inconel 718 for Thermomechanical Fatigue Applications
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12928
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => D.   Heyerhoff, T.   Babinský, S.   Antusch, I.   Šulák, S.   Guth
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12926
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-023
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12925
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (Open-Access)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 12146
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => Inconel 718,Electron-Beam-Melting,Thermomechanical Fatigue,As-Built State,Creep-Fatigue-Interaction
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12927
        )

)
1

Suitability of As-Built Electron Beam Melted Inconel 718 for Thermomechanical Fatigue Applications

Publikationsart: Tagungsmanuskript (Open-Access)

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Suitability of As-Built Electron Beam Melted Inconel 718 for Thermomechanical Fatigue Applications
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12928
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => D.   Heyerhoff, T.   Babinský, S.   Antusch, I.   Šulák, S.   Guth
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12926
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-023
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12925
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (Open-Access)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 12146
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => Inconel 718,Electron-Beam-Melting,Thermomechanical Fatigue,As-Built State,Creep-Fatigue-Interaction
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12927
        )

)
1

Englisch

0,00 €

Nur online erhältlich Neu

Autor(en): L. Stampa, P. Grimm, J. K. Hufenbach, M. Zimmermann

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Multi-DIC based characterization of the fatigue behavior of additively manufactured architected materials
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12924
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => L. Stampa, P. Grimm, J. K. Hufenbach, M. Zimmermann
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12922
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-046
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12921
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => Architected materials,TPMS,Spinodoid materials,Digital Image Correlation,Additive manufacturing
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12923
        )

)
1

Multi-DIC based characterization of the fatigue behavior of additively manufactured architected materials

Publikationsart: Tagungsmanuskript (PDF)

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Multi-DIC based characterization of the fatigue behavior of additively manufactured architected materials
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12924
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => L. Stampa, P. Grimm, J. K. Hufenbach, M. Zimmermann
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12922
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-046
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12921
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => Architected materials,TPMS,Spinodoid materials,Digital Image Correlation,Additive manufacturing
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12923
        )

)
1

Englisch

25,00 €

Nur online erhältlich Neu

Autor(en): M. A. Hoffmann, M. Faßhauer, T. Hassel, T. Beck, B. Blinn

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Anisotropy and Local Property Evolution of WAAM 316L and 17-4PH During Low-Cycle Fatigue
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12848
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M.  A.  Hoffmann, M.   Faßhauer, T.   Hassel, T.   Beck, B.   Blinn
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12845
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-019
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12846
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => Wire and Arc Additive Manufacturing (WAAM),Low-Cycle Fatigue (LCF),Digital Image Correlation (DIC),Electrical and Magnetic Properties,Mechanical Anisotropy
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12847
        )

)
1

Anisotropy and Local Property Evolution of WAAM 316L and 17-4PH During Low-Cycle Fatigue

Publikationsart: Tagungsmanuskript (PDF)

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Anisotropy and Local Property Evolution of WAAM 316L and 17-4PH During Low-Cycle Fatigue
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12848
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M.  A.  Hoffmann, M.   Faßhauer, T.   Hassel, T.   Beck, B.   Blinn
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12845
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-019
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12846
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => Wire and Arc Additive Manufacturing (WAAM),Low-Cycle Fatigue (LCF),Digital Image Correlation (DIC),Electrical and Magnetic Properties,Mechanical Anisotropy
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12847
        )

)
1

Englisch

25,00 €

Nur online erhältlich Neu

Autor(en): T. Hayashibe, K. Sasaki, K. Ohguchi, K. Fukuchi, S. Honda, Y. Tsubota, W. Nagai, K. Ohsato, N. Shinya

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Neural-Network-Based Low Cycle Fatigue Life Estimation of Aluminum Alloys - Effect of Input Variables
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12876
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => T.   Hayashibe, K.   Sasaki, K.   Ohguchi, K.   Fukuchi, S.   Honda, Y.   Tsubota, W.   Nagai, K.   Ohsato, N.   Shinya
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12873
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-047
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12874
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => Aluminum alloy,Low-cycle fatigue,Fatigue life estimation,Neural network
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12875
        )

)
1

Neural-Network-Based Low Cycle Fatigue Life Estimation of Aluminum Alloys - Effect of Input Variables

Publikationsart: Tagungsmanuskript (PDF)

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Neural-Network-Based Low Cycle Fatigue Life Estimation of Aluminum Alloys - Effect of Input Variables
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12876
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => T.   Hayashibe, K.   Sasaki, K.   Ohguchi, K.   Fukuchi, S.   Honda, Y.   Tsubota, W.   Nagai, K.   Ohsato, N.   Shinya
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12873
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-047
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12874
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => Aluminum alloy,Low-cycle fatigue,Fatigue life estimation,Neural network
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12875
        )

)
1

Englisch

25,00 €

Nur online erhältlich Neu

Autor(en): F. Tadross, R. Walther, J. Heidrich, S. Winter, T. Beck, B. Blinn

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Cyclic deformation behaviour of cryogenically treated Vanadis 4E in low cycle fatigue and cyclic indentation tests
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12840
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => F.   Tadross, R.   Walther, J.   Heidrich, S.   Winter, T.   Beck, B.   Blinn
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12837
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-012
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12838
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => Cryogenic treatment,Low-cycle fatigue,Tool steels,Cyclic indentation testing
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12839
        )

)
1

Cyclic deformation behaviour of cryogenically treated Vanadis 4E in low cycle fatigue and cyclic indentation tests

Publikationsart: Tagungsmanuskript (PDF)

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Cyclic deformation behaviour of cryogenically treated Vanadis 4E in low cycle fatigue and cyclic indentation tests
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12840
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => F.   Tadross, R.   Walther, J.   Heidrich, S.   Winter, T.   Beck, B.   Blinn
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12837
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-012
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12838
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => Cryogenic treatment,Low-cycle fatigue,Tool steels,Cyclic indentation testing
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12839
        )

)
1

Englisch

25,00 €

Nur online erhältlich Neu

Autor(en): M. Sakane

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => High Temperature Multiaxial Creep-Fatigue Life for YH61 Nickel-base Single Crystal Superalloy
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12832
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M.   Sakane
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12829
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-006
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12830
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => Multiaxial stress,Single crystal superalloy,Creep-fatigue,Tension-torsion,Cruciform specimen
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12831
        )

)
1

High Temperature Multiaxial Creep-Fatigue Life for YH61 Nickel-base Single Crystal Superalloy

Publikationsart: Tagungsmanuskript (PDF)

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => High Temperature Multiaxial Creep-Fatigue Life for YH61 Nickel-base Single Crystal Superalloy
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12832
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M.   Sakane
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12829
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-006
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12830
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => Multiaxial stress,Single crystal superalloy,Creep-fatigue,Tension-torsion,Cruciform specimen
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12831
        )

)
1

Englisch

25,00 €

Nur online erhältlich Neu

Autor(en): Y. Yamazaki, M. Arai

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Small Fatigue Crack Growth Mechanisms under Thermo-Mechanical Fatigue in a Polycrystalline Superalloy: Role of Crack Closure
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12828
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => Y.   Yamazaki, M.   Arai
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12826
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-003
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12825
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => Naturally initiated small fatigue crack,Thermo-mechanical fatigue (TMF),Crack growth mechanism,Crack closure behavior,Finite element analysis
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12827
        )

)
1

Small Fatigue Crack Growth Mechanisms under Thermo-Mechanical Fatigue in a Polycrystalline Superalloy: Role of Crack Closure

Publikationsart: Tagungsmanuskript (PDF)

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Small Fatigue Crack Growth Mechanisms under Thermo-Mechanical Fatigue in a Polycrystalline Superalloy: Role of Crack Closure
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12828
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => Y.   Yamazaki, M.   Arai
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12826
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-003
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12825
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => Naturally initiated small fatigue crack,Thermo-mechanical fatigue (TMF),Crack growth mechanism,Crack closure behavior,Finite element analysis
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12827
        )

)
1

Englisch

25,00 €

Nur online erhältlich Neu

Autor(en): M. Kling, A. Zaensch, M. Madia, K. Rother, U. Zerbst

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Low-Cycle Fatigue Assessment of Welded Joints Considering Elastic–Plastic Crack Growth Using the IBESS Approach
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12888
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M.   Kling, A.   Zaensch, M.   Madia, K.   Rother, U.   Zerbst
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12885
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-057
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12886
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => Fatigue testing,cyclic plasticity,fracture mechanics,IBESS,high-strength steel
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12887
        )

)
1

Low-Cycle Fatigue Assessment of Welded Joints Considering Elastic–Plastic Crack Growth Using the IBESS Approach

Publikationsart: Tagungsmanuskript (PDF)

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Low-Cycle Fatigue Assessment of Welded Joints Considering Elastic–Plastic Crack Growth Using the IBESS Approach
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12888
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M.   Kling, A.   Zaensch, M.   Madia, K.   Rother, U.   Zerbst
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12885
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-057
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12886
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => Fatigue testing,cyclic plasticity,fracture mechanics,IBESS,high-strength steel
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12887
        )

)
1

Englisch

25,00 €

Nur online erhältlich Neu

Herausgeber: T. Beck, F. Szmytka

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => LCF10 | Tenth International Conference on Low Cycle Fatigue
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12824
        )

    [1] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-BB
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12821
        )

    [2] => Array
        (
            [name] => Herausgeber
            [value] => T. Beck, F. Szmytka
            [id_feature] => 22
            [position] => 5
            [id_feature_value] => 12823
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Berichtsband (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 297
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => LCF10, LCF, Low Cycle Fatigue, DVM
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12822
        )

)
1

LCF10 | Tenth International Conference on Low Cycle Fatigue

Publikationsart: Berichtsband (PDF)

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => LCF10 | Tenth International Conference on Low Cycle Fatigue
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12824
        )

    [1] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-BB
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12821
        )

    [2] => Array
        (
            [name] => Herausgeber
            [value] => T. Beck, F. Szmytka
            [id_feature] => 22
            [position] => 5
            [id_feature_value] => 12823
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Berichtsband (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 297
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => LCF10, LCF, Low Cycle Fatigue, DVM
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12822
        )

)
1

Englisch

90,00 €

Nur online erhältlich Neu

Autor(en): M. Ito

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Creep-Fatigue Fracture Mechanisms in Aluminum Alloy 2618: Effect ofTensile Holding Period on Fatigue Lifetime
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12880
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M.   Ito
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12877
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-051
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12878
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => Aluminum Alloy 2618,Creep-fatigue interaction,Load-controlled testing,Fracture mechanism,Holding period
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12879
        )

)
1

Creep-Fatigue Fracture Mechanisms in Aluminum Alloy 2618: Effect ofTensile Holding Period on Fatigue Lifetime

Publikationsart: Tagungsmanuskript (PDF)

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Creep-Fatigue Fracture Mechanisms in Aluminum Alloy 2618: Effect ofTensile Holding Period on Fatigue Lifetime
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12880
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M.   Ito
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12877
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-051
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12878
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => Aluminum Alloy 2618,Creep-fatigue interaction,Load-controlled testing,Fracture mechanism,Holding period
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12879
        )

)
1

Englisch

25,00 €

Nur online erhältlich Neu

Autor(en): B. Spak, P. Hantschke, M. Kästner

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Low-cycle fatigue in roll-formed aerospace components – process-integrated simulation and experimental characterisation
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12868
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => B.   Spak, P.   Hantschke, M.   Kästner
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12865
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-030
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12866
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => Low-cycle fatigue,Light-weight structures,Local Strain Approach
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12867
        )

)
1

Low-cycle fatigue in roll-formed aerospace components – process-integrated simulation and experimental characterisation

Publikationsart: Tagungsmanuskript (PDF)

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Low-cycle fatigue in roll-formed aerospace components – process-integrated simulation and experimental characterisation
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12868
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => B.   Spak, P.   Hantschke, M.   Kästner
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12865
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-030
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12866
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => Low-cycle fatigue,Light-weight structures,Local Strain Approach
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12867
        )

)
1

Englisch

25,00 €

Nur online erhältlich Neu

Autor(en): A. Ince

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Advanced 3D elasto-plastic modeling for stress-strain analysis of notched components under general multiaxial cyclic loadings
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12860
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => A.   Ince
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12857
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-027
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12858
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => multiaxial loading,notch elastic-plastic analysis,crack propagation,computational modeling
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12859
        )

)
1

Advanced 3D elasto-plastic modeling for stress-strain analysis of notched components under general multiaxial cyclic loadings

Publikationsart: Tagungsmanuskript (PDF)

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Advanced 3D elasto-plastic modeling for stress-strain analysis of notched components under general multiaxial cyclic loadings
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12860
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => A.   Ince
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12857
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-027
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12858
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => multiaxial loading,notch elastic-plastic analysis,crack propagation,computational modeling
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12859
        )

)
1

Englisch

25,00 €

Nur online erhältlich Neu

Autor(en): T. Korschinsky, B. Möller, M. Kiel

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Cyclic transient material behavior of EN AW-1050A H24 aluminum under consideration of strain localization effects
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12884
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => T.   Korschinsky, B.   Möller, M.   Kiel
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12881
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-056
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12882
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => strain localization,transient material behavior,pure aluminum
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12883
        )

)
1

Cyclic transient material behavior of EN AW-1050A H24 aluminum under consideration of strain localization effects

Publikationsart: Tagungsmanuskript (PDF)

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Cyclic transient material behavior of EN AW-1050A H24 aluminum under consideration of strain localization effects
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12884
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => T.   Korschinsky, B.   Möller, M.   Kiel
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12881
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-056
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12882
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => strain localization,transient material behavior,pure aluminum
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12883
        )

)
1

Englisch

25,00 €

Nur online erhältlich Neu

Autor(en): M. Arai, Y. Yamazaki

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => A study of small crack propagation behavior in a single crystal Ni based superalloy under TMF conditions
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12836
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M.   Arai, Y.   Yamazaki
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12833
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-008
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12834
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => Thermo-mechanical fatigue,small crack,single crystal superalloy
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12835
        )

)
1

A study of small crack propagation behavior in a single crystal Ni based superalloy under TMF conditions

Publikationsart: Tagungsmanuskript (PDF)

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => A study of small crack propagation behavior in a single crystal Ni based superalloy under TMF conditions
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12836
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M.   Arai, Y.   Yamazaki
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12833
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-008
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12834
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => Thermo-mechanical fatigue,small crack,single crystal superalloy
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12835
        )

)
1

Englisch

25,00 €

Nur online erhältlich Neu

Autor(en): E. Gall, S. Guth

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Influence of Hydrogen on the LCF Behavior of Quenched and Tempered AISI 4140 Steel
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12852
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => E.   Gall, S.   Guth
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12849
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-022
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12850
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => electrochemical hydrogen loading,hydrogen embrittlement,AISI 4140 (quenched and tempered),cyclic plasticity,strain-controlled testing
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12851
        )

)
1

Influence of Hydrogen on the LCF Behavior of Quenched and Tempered AISI 4140 Steel

Publikationsart: Tagungsmanuskript (PDF)

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Influence of Hydrogen on the LCF Behavior of Quenched and Tempered AISI 4140 Steel
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12852
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => E.   Gall, S.   Guth
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12849
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF10-2026-022
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12850
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => Tenth International Conference on Low Cycle Fatigue (LCF-10)
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 12818
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2026
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 12394
        )

    [5] => Array
        (
            [name] => Publikationsart
            [value] => Tagungsmanuskript (PDF)
            [id_feature] => 18
            [position] => 8
            [id_feature_value] => 299
        )

    [6] => Array
        (
            [name] => Sprache
            [value] => Englisch
            [id_feature] => 20
            [position] => 9
            [id_feature_value] => 301
        )

    [7] => Array
        (
            [name] => Stichwörter
            [value] => electrochemical hydrogen loading,hydrogen embrittlement,AISI 4140 (quenched and tempered),cyclic plasticity,strain-controlled testing
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12851
        )

)
1

Englisch

25,00 €

Nur online erhältlich Neu