Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Evaluation of multi-axial stresses using the FKM guideline - status quo and how it can be improved
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12104
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M.   Wächter, R.   Wuthenow, C.   Fällgren, H.-T.   Beier, M.   Obermayr, R.   Rennert, M.   Vormwald, A.   Esderts
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12101
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-62
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12102
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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 stresses,guideline,FKM,scaled normal stresses
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12103
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Evaluation of multi-axial stresses using the FKM guideline - status quo and how it can be improved
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12104
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M.   Wächter, R.   Wuthenow, C.   Fällgren, H.-T.   Beier, M.   Obermayr, R.   Rennert, M.   Vormwald, A.   Esderts
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12101
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-62
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12102
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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 stresses,guideline,FKM,scaled normal stresses
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12103
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Numerical Analysis of Defect Population Influence on the Multiaxial High-cycle Fatigue Strength Anisotropy of Ti64 Manufactured by Laser Powder Bed Fusion (L-PBF)
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12100
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => S.S.   Penkulinti, N.   Saintier, M.   Bonneric, B.   Verquin, T.   Palin-Luc, F.   Lefebvre
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12097
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-61
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12098
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => Laser Powder Bed Fusion (L-PBF),Defects,High-cycle Fatigue,Finite Element Analysis
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12099
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Numerical Analysis of Defect Population Influence on the Multiaxial High-cycle Fatigue Strength Anisotropy of Ti64 Manufactured by Laser Powder Bed Fusion (L-PBF)
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12100
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => S.S.   Penkulinti, N.   Saintier, M.   Bonneric, B.   Verquin, T.   Palin-Luc, F.   Lefebvre
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12097
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-61
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12098
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => Laser Powder Bed Fusion (L-PBF),Defects,High-cycle Fatigue,Finite Element Analysis
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12099
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Simulation of crack propagation in ductile materials under non-proportional loading conditions. Part II: Phase field modelling of crack propagation
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12096
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => A.   Gibb, A.   Tsakmakis, M.   Vormwald
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12093
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-59
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12094
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => Plasticity,Phase Field,Multi-axial,Fatigue,Damage
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12095
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Simulation of crack propagation in ductile materials under non-proportional loading conditions. Part II: Phase field modelling of crack propagation
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12096
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => A.   Gibb, A.   Tsakmakis, M.   Vormwald
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12093
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-59
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12094
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => Plasticity,Phase Field,Multi-axial,Fatigue,Damage
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12095
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Simulation of crack propagation in ductile materials under non-proportional loading conditions. Part I: Modelling of deformation-induced plastic anisotropy
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12092
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => A.   Gibb, A.   Tsakmakis, M.   Vormwald
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12089
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-58
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12090
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => Plasticity,Phase Field,Multi-axial,Damage,Fatigue
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12091
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Simulation of crack propagation in ductile materials under non-proportional loading conditions. Part I: Modelling of deformation-induced plastic anisotropy
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12092
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => A.   Gibb, A.   Tsakmakis, M.   Vormwald
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12089
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-58
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12090
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => Plasticity,Phase Field,Multi-axial,Damage,Fatigue
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12091
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Fatigue assessment of additively manufactured V-notched Ti6Al4V engineering components under multiaxial stress state in high-cycle regime: a novel approach
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12088
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => S.   Vantadori, A.   Carpinteri, C.   Ronchei, D.   Scorza, A.   Zanichelli
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12085
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-55
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12086
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => critical distance,porosity,surface roughness,Ti6Al4V,V-notch
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12087
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Fatigue assessment of additively manufactured V-notched Ti6Al4V engineering components under multiaxial stress state in high-cycle regime: a novel approach
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12088
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => S.   Vantadori, A.   Carpinteri, C.   Ronchei, D.   Scorza, A.   Zanichelli
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12085
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-55
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12086
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => critical distance,porosity,surface roughness,Ti6Al4V,V-notch
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12087
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => On the life estimation of wires using non-local machine learning methodology
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12084
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => G.  A.  Brito Oliveira, I.  M.  Matos, R.  A.  Cardoso, J.  A.  Araújo
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12081
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-51
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12082
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => Fretting fatigue,Data-driven models,Overhead conductors,Life prediction
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12083
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => On the life estimation of wires using non-local machine learning methodology
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12084
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => G.  A.  Brito Oliveira, I.  M.  Matos, R.  A.  Cardoso, J.  A.  Araújo
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12081
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-51
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12082
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => Fretting fatigue,Data-driven models,Overhead conductors,Life prediction
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12083
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Data-Driven Approach to Statistical-Based Fatigue Predictions of the Findley Criterion
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12080
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => A.   Trapp, K.   Rother
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12077
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-47
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12078
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => Non-Proportional Stresses,Random Vibration Loading,Data-Driven Approach,Non-Stationary Loading,Modal Approach
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12079
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Data-Driven Approach to Statistical-Based Fatigue Predictions of the Findley Criterion
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12080
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => A.   Trapp, K.   Rother
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12077
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-47
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12078
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => Non-Proportional Stresses,Random Vibration Loading,Data-Driven Approach,Non-Stationary Loading,Modal Approach
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12079
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Assessing Phase Relationships Between Stress Components in Statistical Fatigue Evaluations
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12076
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => A.   Trapp, K.   Rother
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12073
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-46
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12074
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => Variable Amplitude Loading,Random Vibration Loading,Critical Plane Approach,Statistical Fatigue Assessment
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12075
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Assessing Phase Relationships Between Stress Components in Statistical Fatigue Evaluations
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12076
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => A.   Trapp, K.   Rother
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12073
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-46
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12074
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => Variable Amplitude Loading,Random Vibration Loading,Critical Plane Approach,Statistical Fatigue Assessment
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12075
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Notch sensitivity and short cracks tolerance in environmentally assisted cracking under multiaxial tension-torsion loadings
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12072
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => H.   Wu, M.  A.  Meggiolaro, A.  C.  Miranda, J.  T.P.  Castro
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12069
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-44
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12070
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => short cracks,environmental effects,non-propagating cracks,notch sensitivity,stress gradient effects.
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12071
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Notch sensitivity and short cracks tolerance in environmentally assisted cracking under multiaxial tension-torsion loadings
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12072
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => H.   Wu, M.  A.  Meggiolaro, A.  C.  Miranda, J.  T.P.  Castro
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12069
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-44
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12070
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => short cracks,environmental effects,non-propagating cracks,notch sensitivity,stress gradient effects.
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12071
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Crack Initiation Life Estimate for Notched Specimens of SUS304 and Mod.9Cr-1Mo Steels under Nonproportional Cyclic Loading
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12068
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M.   Sakane
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12065
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-43
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12066
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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,notch,nonproportional loading,crack initiation life,life estimate
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12067
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Crack Initiation Life Estimate for Notched Specimens of SUS304 and Mod.9Cr-1Mo Steels under Nonproportional Cyclic Loading
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12068
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M.   Sakane
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12065
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-43
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12066
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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,notch,nonproportional loading,crack initiation life,life estimate
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12067
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Comparative Evaluation of Machine Learning Models and Super Ellipse Criterion for Fatigue Life Prediction of Welded Joints under Multiaxial Loading
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12064
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M.   Beiler, N.  M.  Bauer, J.   Baumgartner, M.   Braun
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12061
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-40
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12062
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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 strength assessment,Multiaxial fatigue,Artificial neural network,Extreme gradient boosting,Explainable AI
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12063
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Comparative Evaluation of Machine Learning Models and Super Ellipse Criterion for Fatigue Life Prediction of Welded Joints under Multiaxial Loading
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12064
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M.   Beiler, N.  M.  Bauer, J.   Baumgartner, M.   Braun
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12061
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-40
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12062
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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 strength assessment,Multiaxial fatigue,Artificial neural network,Extreme gradient boosting,Explainable AI
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12063
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Unifying multiaxial fatigue life prediction of welded joints by considering support effects
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12060
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => N.  M.  Bauer, A.   Wöhle, J.   Baumgartner
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12057
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-33
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12058
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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 fatigue,stress averaging,welded joints,support effect,stress gradient
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12059
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Unifying multiaxial fatigue life prediction of welded joints by considering support effects
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12060
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => N.  M.  Bauer, A.   Wöhle, J.   Baumgartner
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12057
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-33
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12058
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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 fatigue,stress averaging,welded joints,support effect,stress gradient
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12059
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => A Maximum-Damage Critical Plane Formulation considering Peak Deviatoric Stress Effects
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12056
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M.A.   Meggiolaro, J.  T.P.  Castro, H.   Wu
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12053
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-32
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12054
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => Critical plane,Mean stress effects,Deviatoric damage parameter,Smith-Watson-Topper,Fatemi-Socie
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12055
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => A Maximum-Damage Critical Plane Formulation considering Peak Deviatoric Stress Effects
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12056
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M.A.   Meggiolaro, J.  T.P.  Castro, H.   Wu
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12053
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-32
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12054
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => Critical plane,Mean stress effects,Deviatoric damage parameter,Smith-Watson-Topper,Fatemi-Socie
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12055
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Multiaxial Fatigue Testing of Welded Steel Joints Subjected to Non-Proportional Stress States Induced by Frequency Difference Between Normal and Shear Stresses
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12052
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => N.  B.  Winther, M.  L.  Larsen, S.  M.  Jenson, J.  H.  Andreasen, J.   Schjødt-Thomsen
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12049
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-31
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12050
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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 Fatigue Experiments,Welded Joints,Non-Proportional Fatigue
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12051
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Multiaxial Fatigue Testing of Welded Steel Joints Subjected to Non-Proportional Stress States Induced by Frequency Difference Between Normal and Shear Stresses
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12052
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => N.  B.  Winther, M.  L.  Larsen, S.  M.  Jenson, J.  H.  Andreasen, J.   Schjødt-Thomsen
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12049
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-31
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12050
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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 Fatigue Experiments,Welded Joints,Non-Proportional Fatigue
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12051
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => The Use of Polar Damage Sum Concept for Calculating Mean Stress Effect in Multiaxial Fatigue Loading Conditions
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12048
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => J.   Albinmousa, A.   Alhammali, M.   Ismail
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12045
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-29
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12046
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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 damage,multiaxial,Mean stress,Polar damage sum concept,critical plane concept
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12047
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => The Use of Polar Damage Sum Concept for Calculating Mean Stress Effect in Multiaxial Fatigue Loading Conditions
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12048
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => J.   Albinmousa, A.   Alhammali, M.   Ismail
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12045
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-29
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12046
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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 damage,multiaxial,Mean stress,Polar damage sum concept,critical plane concept
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12047
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Systematic investigation of the influence of T-stress and LCF overloads in biaxially loaded cruciform specimen on plasticity-induced crack closure using digital image correlation
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12044
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => A.   Zaiat, A.   Blug, G.   Laskin, A.   Bertz, F.   Conrad, C.   Kontermann, M.   Oechsner
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12041
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-27
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12042
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => PICC,Biaxial-Testing,Cruciform Specimens,T-Stress
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12043
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Systematic investigation of the influence of T-stress and LCF overloads in biaxially loaded cruciform specimen on plasticity-induced crack closure using digital image correlation
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12044
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => A.   Zaiat, A.   Blug, G.   Laskin, A.   Bertz, F.   Conrad, C.   Kontermann, M.   Oechsner
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12041
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-27
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12042
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => PICC,Biaxial-Testing,Cruciform Specimens,T-Stress
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12043
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Fatigue assessment of structural components through the Effective Critical Plane approach: methodology and applications
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12040
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => A.   Chiocca, F.   Frendo, M.   Sgamma
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12037
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-25
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12038
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => Structural integrity,Critical plane methods,Multiaxial loading,Fatigue assessment,Effective Critical Plane approach
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12039
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Fatigue assessment of structural components through the Effective Critical Plane approach: methodology and applications
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12040
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => A.   Chiocca, F.   Frendo, M.   Sgamma
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12037
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-25
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12038
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => Structural integrity,Critical plane methods,Multiaxial loading,Fatigue assessment,Effective Critical Plane approach
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12039
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Interior fatigue of gears under special consideration of multiaxial stresses and local material properties
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12036
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => J.-A.   Meis
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12033
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-23
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12034
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => Flank Fracture,Interior Fatigue,Critical Plane,Nonmetallic Inclusions,Probabilistic Design
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12035
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Interior fatigue of gears under special consideration of multiaxial stresses and local material properties
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12036
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => J.-A.   Meis
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12033
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-23
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12034
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => Flank Fracture,Interior Fatigue,Critical Plane,Nonmetallic Inclusions,Probabilistic Design
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12035
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Modeling of small fatigue crack growth under multiaxial stress conditions
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12032
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => N.   Santos, R.   Costa, F.   Castro
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12029
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-22
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12030
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => small crack growth,fatigue life,small defect,multiaxial fatigue
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12031
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Modeling of small fatigue crack growth under multiaxial stress conditions
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12032
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => N.   Santos, R.   Costa, F.   Castro
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12029
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-22
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12030
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => small crack growth,fatigue life,small defect,multiaxial fatigue
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12031
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Multiaxial Fatigue of Weldments: Experiments and Modeling
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12028
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => A.   Razi, A.   Fatemi
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12025
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-21
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12026
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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 life prediction, Welded joint, Multiaxial loading, Variable amplitude loading, Fracture mechanics, Weld fatigue design codes
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12027
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Multiaxial Fatigue of Weldments: Experiments and Modeling
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12028
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => A.   Razi, A.   Fatemi
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12025
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-21
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12026
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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 life prediction, Welded joint, Multiaxial loading, Variable amplitude loading, Fracture mechanics, Weld fatigue design codes
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12027
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Application of Multiaxial Fatigue Criteria for Fretting Fatigue Analysis and Life Predictions
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12024
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => S.   Ghadar, A.   Fatemi, N.   Phan
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12021
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-20
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12022
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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 Fatigue,Fretting Fatigue,Life Prediction
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12023
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Application of Multiaxial Fatigue Criteria for Fretting Fatigue Analysis and Life Predictions
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12024
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => S.   Ghadar, A.   Fatemi, N.   Phan
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12021
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-20
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12022
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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 Fatigue,Fretting Fatigue,Life Prediction
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12023
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Fatigue life prediction of continuous fiber reinforced polymers under multiaxial loading conditions based on the critical plane approach
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12020
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => S.  J.  Duda, M.   Smolnicki, G.   Lesiuk, A.   Fatemi
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12017
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-19
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12018
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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 fatigue,Continuous fiber composites,FS damage parameter,Fatigue life prediction
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12019
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Fatigue life prediction of continuous fiber reinforced polymers under multiaxial loading conditions based on the critical plane approach
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12020
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => S.  J.  Duda, M.   Smolnicki, G.   Lesiuk, A.   Fatemi
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12017
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-19
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12018
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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 fatigue,Continuous fiber composites,FS damage parameter,Fatigue life prediction
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12019
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Effect of welding spots on the stress intensity and crack propagation angle under plain fretting and fretting fatigue with flat-flat contact
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12016
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M.   Müller, D.   Knabner, L.   Suchy, A.   Hasse
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12013
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-16
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12014
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => fretting fatigue,crack propagation,FE-simulation,welding spots,stress intensity factor
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12015
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Effect of welding spots on the stress intensity and crack propagation angle under plain fretting and fretting fatigue with flat-flat contact
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12016
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M.   Müller, D.   Knabner, L.   Suchy, A.   Hasse
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12013
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-16
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12014
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => fretting fatigue,crack propagation,FE-simulation,welding spots,stress intensity factor
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12015
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Crack growth behavior of steel S235 under proportional and non-proportional fatigue loading
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12012
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => P.   Zerres, M.   Vormwald
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12009
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-15
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12010
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => fracture mechanics,fatigue crack growth,non-proportional loading
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12011
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Crack growth behavior of steel S235 under proportional and non-proportional fatigue loading
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12012
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => P.   Zerres, M.   Vormwald
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12009
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-15
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12010
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => fracture mechanics,fatigue crack growth,non-proportional loading
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12011
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Multiaxial Fatigue Life Prediction based on Complex Invariants Compared to Critical Cutting Plane Approaches
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12008
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => W.  C.  Hübsch, C.   Gaier
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12005
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-11
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12006
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => Equivalent stress,Multiaxiality,fatigue analysis
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12007
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Multiaxial Fatigue Life Prediction based on Complex Invariants Compared to Critical Cutting Plane Approaches
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 12008
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => W.  C.  Hübsch, C.   Gaier
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 12005
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/ICMFF14-2025-11
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 12006
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => 14. International Conference on Multiaxial Fatigue and Fracture 2025
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 11974
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2025
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 10293
        )

    [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] => Equivalent stress,Multiaxiality,fatigue analysis
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 12007
        )

)
1