Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Unified viscoplasticity modelling for isothermal low-cycle fatigue-creep, creep and thermo-mechanical fatigue of SiMo cast iron
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7759
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M. Bartošák, J. Horváth, O. Havlíček, M. Španiel
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7756
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-065
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7757
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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] => Viscoplasticity,Low-cycle fatigue,Fatigue-creep,Creep,Thermo-mechanical fatigue
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7758
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Unified viscoplasticity modelling for isothermal low-cycle fatigue-creep, creep and thermo-mechanical fatigue of SiMo cast iron
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7759
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M. Bartošák, J. Horváth, O. Havlíček, M. Španiel
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7756
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-065
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7757
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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] => Viscoplasticity,Low-cycle fatigue,Fatigue-creep,Creep,Thermo-mechanical fatigue
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7758
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Interaction between grain orientation and crack initiation and propagation of coarse-grained, anisotropic nickel-based alloys
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7783
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => P. Lion
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7780
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-078
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7781
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

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

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

    [7] => Array
        (
            [name] => Stichwörter
            [value] => 
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7782
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Interaction between grain orientation and crack initiation and propagation of coarse-grained, anisotropic nickel-based alloys
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7783
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => P. Lion
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7780
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-078
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7781
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

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

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

    [7] => Array
        (
            [name] => Stichwörter
            [value] => 
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7782
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Influence of alloy and weld angle on the fatigue performance of aluminum structures
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7708
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => D. Siebert, C. Radlbeck, M. Mensinger, J. Diller
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7705
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-012
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7706
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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] => aluminium alloy,heat-affected-zone,strain-controlled-testing,cyclic material behavior,plastification at notches
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7707
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Influence of alloy and weld angle on the fatigue performance of aluminum structures
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7708
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => D. Siebert, C. Radlbeck, M. Mensinger, J. Diller
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7705
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-012
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7706
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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] => aluminium alloy,heat-affected-zone,strain-controlled-testing,cyclic material behavior,plastification at notches
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7707
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Low Cycle Fatigue Behavior of Hot-Bent Basal Textured AZ31B Wrought Magnesium Alloy
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7751
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => A. Nischler, O. Huber, H. Saage
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7748
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-054
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7749
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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,hot-bent uniaxial specimen,highly strained volume,twinnig,AZ31B
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7750
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Low Cycle Fatigue Behavior of Hot-Bent Basal Textured AZ31B Wrought Magnesium Alloy
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7751
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => A. Nischler, O. Huber, H. Saage
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7748
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-054
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7749
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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,hot-bent uniaxial specimen,highly strained volume,twinnig,AZ31B
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7750
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Isothermal and Thermomechanical Fatigue Behaviour of Roughing Mill Work Roll Alloys
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7700
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => K. U. Fota, H. - J. Christ, B. Gorr, A. Cestonaro, P. Heisterkamp, F. Spannagel, H. Jacke
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7697
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-005
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7698
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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] => Thermomechanical Fatigue,Low Cycle Fatigue,High Temperature,Steel,Work Rolls
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7699
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Isothermal and Thermomechanical Fatigue Behaviour of Roughing Mill Work Roll Alloys
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7700
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => K. U. Fota, H. - J. Christ, B. Gorr, A. Cestonaro, P. Heisterkamp, F. Spannagel, H. Jacke
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7697
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-005
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7698
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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] => Thermomechanical Fatigue,Low Cycle Fatigue,High Temperature,Steel,Work Rolls
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7699
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Improvement of the estimation of elastic-plastic stress states by a Machine-Learning-based correction factor for Neubers’ rule
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7692
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => R. Wuthenow, F. Paysan, M. Wächter, A. Esderts
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7690
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-001
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7689
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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] => machine learning,artificial neural networks,neuber rule,elastic plastic stress state,notch root approximation
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7691
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Improvement of the estimation of elastic-plastic stress states by a Machine-Learning-based correction factor for Neubers’ rule
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7692
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => R. Wuthenow, F. Paysan, M. Wächter, A. Esderts
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7690
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-001
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7689
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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] => machine learning,artificial neural networks,neuber rule,elastic plastic stress state,notch root approximation
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7691
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Automation of durability and fatigue tests with Crack Track & Tracing
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7763
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => H. Unterrainer
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7760
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-066
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7761
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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] => crack detection,trigger signal,image processing,Crack Initiation and –Growth,Fatigue Damage
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7762
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Automation of durability and fatigue tests with Crack Track & Tracing
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7763
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => H. Unterrainer
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7760
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-066
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7761
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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] => crack detection,trigger signal,image processing,Crack Initiation and –Growth,Fatigue Damage
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7762
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Estimation of local plastic behaviour using Adjustable Localization Operator for Low Cycle Fatigue life prediction
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7787
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => E. Gautier, B. Levieil, C. Doudard, S. Calloch, A. Ezanno
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7784
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-089
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7785
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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 loadings,fatigue life,experimental validation,confined plasticity
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7786
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Estimation of local plastic behaviour using Adjustable Localization Operator for Low Cycle Fatigue life prediction
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7787
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => E. Gautier, B. Levieil, C. Doudard, S. Calloch, A. Ezanno
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7784
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-089
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7785
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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 loadings,fatigue life,experimental validation,confined plasticity
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7786
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Direction- and path-independent DIC strain-field evaluation for uniaxial and biaxial fatigue crack growth investigations
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7739
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => F. Conrad, A. Blug, C. Kontermann, D. Regina, J. Kerl, A. Berz, D. Carl, M. Oechsner
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7736
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-048
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7737
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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] => Real-time DIC,Fatigue crack growth,Corner-crack and Cruciform specimen
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7738
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Direction- and path-independent DIC strain-field evaluation for uniaxial and biaxial fatigue crack growth investigations
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7739
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => F. Conrad, A. Blug, C. Kontermann, D. Regina, J. Kerl, A. Berz, D. Carl, M. Oechsner
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7736
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-048
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7737
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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] => Real-time DIC,Fatigue crack growth,Corner-crack and Cruciform specimen
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7738
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Dwell-Fatigue and Cyclic Softening of Grade P92 steel under LCF and TMF Conditions
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7811
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => N. Sonntag, M. Jürgens, F. Roohbakhshan, L. A. Jácome, J. Olbricht
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7808
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-111
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7809
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

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

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

    [7] => Array
        (
            [name] => Stichwörter
            [value] => 
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7810
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Dwell-Fatigue and Cyclic Softening of Grade P92 steel under LCF and TMF Conditions
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7811
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => N. Sonntag, M. Jürgens, F. Roohbakhshan, L. A. Jácome, J. Olbricht
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7808
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-111
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7809
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

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

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

    [7] => Array
        (
            [name] => Stichwörter
            [value] => 
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7810
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Low Cycle Fatigue Behaviour of an AISI 316L Stainless Steel Additively Manufactured by Laser Powder Bed Fusion (L-PBF)
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7803
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M. Pelegatti, D. Benasciutti, F. De Bona, A. Lanzutti, E. Salvati, M. Sortino, J. S. Novak, F. Sordetti, G. Totis, E. Vaglio
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7800
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-104
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7801
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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,cyclic response,strain-life curve,laser powder bed fusion (L-PBF),AISI 316L
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7802
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Low Cycle Fatigue Behaviour of an AISI 316L Stainless Steel Additively Manufactured by Laser Powder Bed Fusion (L-PBF)
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7803
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => M. Pelegatti, D. Benasciutti, F. De Bona, A. Lanzutti, E. Salvati, M. Sortino, J. S. Novak, F. Sordetti, G. Totis, E. Vaglio
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7800
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-104
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7801
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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,cyclic response,strain-life curve,laser powder bed fusion (L-PBF),AISI 316L
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7802
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Fatigue life assessment and modelling of the cyclic material behaviour of a high strength martensitic steel
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7723
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => F. Himmelbauer, B. T. Seisenbacher, G. Winter, F. Grün
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7720
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-016
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7721
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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 assessment,Residual stress development,Material modelling,Martensitic steel,LCF
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7722
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Fatigue life assessment and modelling of the cyclic material behaviour of a high strength martensitic steel
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7723
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => F. Himmelbauer, B. T. Seisenbacher, G. Winter, F. Grün
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7720
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-016
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7721
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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 assessment,Residual stress development,Material modelling,Martensitic steel,LCF
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7722
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Harmonized modelling of low cycle fatigue life curves with temperature, dwell and strain rate variation
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7747
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => D. Jobski, S. Linn, C. Kontermann, M. Oechsner
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7744
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-052
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7745
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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 curves,Manson Coffin,steam turbine,CX12CrMoVNbN9-1 (C91),creep-fatigue
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7746
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Harmonized modelling of low cycle fatigue life curves with temperature, dwell and strain rate variation
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7747
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => D. Jobski, S. Linn, C. Kontermann, M. Oechsner
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7744
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-052
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7745
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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 curves,Manson Coffin,steam turbine,CX12CrMoVNbN9-1 (C91),creep-fatigue
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7746
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Influence of new thermal and environmental barrier coating on the thermomechanical fatigue behaviour of nickel-base superalloy MAR-M247
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7807
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => I. Šulák, K. Obrtlík, L. Čelko
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7804
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-105
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7805
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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] => In-Phase,Out-of-Phase,Nickel-based superalloy,Thermal and environmental barrier coating,High temperature fatigue
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7806
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Influence of new thermal and environmental barrier coating on the thermomechanical fatigue behaviour of nickel-base superalloy MAR-M247
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7807
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => I. Šulák, K. Obrtlík, L. Čelko
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7804
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-105
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7805
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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] => In-Phase,Out-of-Phase,Nickel-based superalloy,Thermal and environmental barrier coating,High temperature fatigue
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7806
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Fatigue lifetime prediction with a microstructural short crack model for ferritic and martensitic steel
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7799
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => E. Natkowski, P. Sonnweber-Ribic, S. Münstermann
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7796
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-097
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7797
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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] => Finite element method,Micromechanics,Simulation,Crystal plasticity,Microstructural short crack growth
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7798
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => Fatigue lifetime prediction with a microstructural short crack model for ferritic and martensitic steel
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7799
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => E. Natkowski, P. Sonnweber-Ribic, S. Münstermann
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7796
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-097
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7797
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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] => Finite element method,Micromechanics,Simulation,Crystal plasticity,Microstructural short crack growth
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7798
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => The role of edge surface quality on cyclic deformation behaviour of non-oriented electrical steel sheets
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7755
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => A. Gottwalt, U. Tetzlaff
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7752
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-058
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7753
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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-oriented electrical steel,Crack initiation,Thin sheet,fatigue
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7754
        )

)
1

Array
(
    [0] => Array
        (
            [name] => Titel
            [value] => The role of edge surface quality on cyclic deformation behaviour of non-oriented electrical steel sheets
            [id_feature] => 25
            [position] => 0
            [id_feature_value] => 7755
        )

    [1] => Array
        (
            [name] => Autor(en)
            [value] => A. Gottwalt, U. Tetzlaff
            [id_feature] => 16
            [position] => 1
            [id_feature_value] => 7752
        )

    [2] => Array
        (
            [name] => DOI
            [value] => 10.48447/LCF9-2022-058
            [id_feature] => 15
            [position] => 2
            [id_feature_value] => 7753
        )

    [3] => Array
        (
            [name] => Veranstaltung
            [value] => LCF9 - Ninth International Conference  on Low Cycle Fatigue
            [id_feature] => 17
            [position] => 6
            [id_feature_value] => 7642
        )

    [4] => Array
        (
            [name] => Jahr der Veröffentlichung
            [value] => 2022
            [id_feature] => 14
            [position] => 7
            [id_feature_value] => 6009
        )

    [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-oriented electrical steel,Crack initiation,Thin sheet,fatigue
            [id_feature] => 19
            [position] => 10
            [id_feature_value] => 7754
        )

)
1