Datenschutzbedingungen (bearbeiten im Modul "Kundenvorteile")
Lieferbedingungen (bearbeiten im Modul "Kundenvorteile")
Rücksendebedingungen (bearbeiten im Modul "Kundenvorteile")
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] => 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] => 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] => In situ cyclic tests combined with high resolution digital correlation of 316L steel from additive manufacturing. [id_feature] => 25 [position] => 0 [id_feature_value] => 7795 ) [1] => Array ( [name] => Autor(en) [value] => S. Collomb, E. Charkaluk, A. Constantinescu, S. Hallais [id_feature] => 16 [position] => 1 [id_feature_value] => 7792 ) [2] => Array ( [name] => DOI [value] => 10.48447/LCF9-2022-096 [id_feature] => 15 [position] => 2 [id_feature_value] => 7793 ) [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] => Additive-manufacturing,in-situ,multi-scale,316L steel,HR-DIC [id_feature] => 19 [position] => 10 [id_feature_value] => 7794 ) ) 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] => Toughening Mechanisms and Enhanced Damage Tolerant Fatigue Behaviour in Laminated Metal Composites [id_feature] => 25 [position] => 0 [id_feature_value] => 7819 ) [1] => Array ( [name] => Autor(en) [value] => P. M. Pohl, I. Serrano-Munoz, H. Markötter, M. Göken, H. W. Höppel [id_feature] => 16 [position] => 1 [id_feature_value] => 7817 ) [2] => Array ( [name] => DOI [value] => 10.48447/LCF9-2022-035 [id_feature] => 15 [position] => 2 [id_feature_value] => 7816 ) [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] => laminated metal composite, damage tolerance, fatigue crack growth, toughening mechanism, synchrotron X-ray computed tomography [id_feature] => 19 [position] => 10 [id_feature_value] => 7818 ) ) 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] => Study of the damage evolution of G20Mn5 cast steel under low cycle fatigue [id_feature] => 25 [position] => 0 [id_feature_value] => 7791 ) [1] => Array ( [name] => Autor(en) [value] => A. Bermond, C. Roume, J. Stolarz, M. Lenci, J. F. Carton, H. Klocker [id_feature] => 16 [position] => 1 [id_feature_value] => 7788 ) [2] => Array ( [name] => DOI [value] => 10.48447/LCF9-2022-093 [id_feature] => 15 [position] => 2 [id_feature_value] => 7789 ) [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] => 7790 ) ) 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] => Structural finite element analysis using material model with Prandtl operator approach [id_feature] => 25 [position] => 0 [id_feature_value] => 7743 ) [1] => Array ( [name] => Autor(en) [value] => D. Šeruga, J. Klemenc, S. Oman, M. Nagode [id_feature] => 16 [position] => 1 [id_feature_value] => 7740 ) [2] => Array ( [name] => DOI [value] => 10.48447/LCF9-2022-050 [id_feature] => 15 [position] => 2 [id_feature_value] => 7741 ) [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] => stress-strain modelling,elastoplastic response,Prandtl operator approach,finite element analysis [id_feature] => 19 [position] => 10 [id_feature_value] => 7742 ) ) 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] => Cyclic plasticity and LCF behavior of AISI 316L austenitic stainless steel manufactured by selective laser melting (SLM) [id_feature] => 25 [position] => 0 [id_feature_value] => 7779 ) [1] => Array ( [name] => Autor(en) [value] => J. Man, I. Šulák, A. Chlupová, L. Douša, J. Polák [id_feature] => 16 [position] => 1 [id_feature_value] => 7776 ) [2] => Array ( [name] => DOI [value] => 10.48447/LCF9-2022-077 [id_feature] => 15 [position] => 2 [id_feature_value] => 7777 ) [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] => Selective laser melting,Low cycle fatigue,Austenitic stainless steel,Dislocation microstructure,Transmission electron microscopy (TEM) [id_feature] => 19 [position] => 10 [id_feature_value] => 7778 ) ) 1
Array ( [0] => Array ( [name] => Titel [value] => Influence of strain-rate and cycle form on the low cycle fatigue behavior of Nickel-base superalloy MAR-M247 at high temperature [id_feature] => 25 [position] => 0 [id_feature_value] => 7727 ) [1] => Array ( [name] => Autor(en) [value] => I. Šulák, S. Guth, K. Obrtlík, K. - H. Lang, K. Hrbáček [id_feature] => 16 [position] => 1 [id_feature_value] => 7724 ) [2] => Array ( [name] => DOI [value] => 10.48447/LCF9-2022-018 [id_feature] => 15 [position] => 2 [id_feature_value] => 7725 ) [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] => Strain rate influence,slow-fast & fast-slow tests,Nickel based superalloy,high temperature [id_feature] => 19 [position] => 10 [id_feature_value] => 7726 ) ) 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] => 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] => Strain-based life assessment of components made of ductile cast iron [id_feature] => 25 [position] => 0 [id_feature_value] => 7735 ) [1] => Array ( [name] => Autor(en) [value] => J. Wang [id_feature] => 16 [position] => 1 [id_feature_value] => 7732 ) [2] => Array ( [name] => DOI [value] => 10.48447/LCF9-2022-047 [id_feature] => 15 [position] => 2 [id_feature_value] => 7733 ) [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] => LCF,ductile cast iron,Uniform Material Law,damage parameter [id_feature] => 19 [position] => 10 [id_feature_value] => 7734 ) ) 1