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However, laser welding of high-strength aluminum alloys at high welding speeds may result in the formation of transverse hot cracks in the weld seam, potentially causing component failure due to leakage. To determine strategies to avoid transverse hot cracks, the influence of the welding speed during full-penetration laser welding is analyzed both experimentally and theoretically using numerical simulations of the temperature field and the fluid flow. A metallographic analysis of the welded samples showed an increase in the number of transverse hot cracks with increasing welding speeds. The results revealed that a major mechanism for the formation of transverse hot cracks at high welding speeds is a significant reduction of the static pressure at the side of the melt pool, which impairs liquid feeding into the intergranular region. These findings provide fundamental knowledge for the development of optimization strategies to reduce the formation of transverse hot cracks at high welding speeds.", "language" : "English", "issn" : "0030-3992", "doi" : "10.1016/j.optlastec.2025.113898", "bibtexKey": "Michel_2025_Mechanisms_Cracks" } , { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/2a8db9c33dd141c0142c37aec16c3482c/ifsw", "tags" : [ "myown","Welding","Simulation","peer","Laser","HotCracking","FluidFlow","Aluminium" ], "intraHash" : "a8db9c33dd141c0142c37aec16c3482c", "interHash" : "f0ab1e31d3b83b52a60c3373e0a9d2d9", "label" : "Mechanisms of transverse hot crack formation during laser welding of high-strength aluminum alloys at high welding speeds", "user" : "ifsw", "description" : "", "date" : "2025-09-18 13:10:40", "changeDate" : "2025-09-18 13:10:40", "count" : 3, "pub-type": "article", "journal": "Optics & Laser Technology","publisher":"Elsevier BV", "year": "2025", "url": "http://dx.doi.org/10.1016/j.optlastec.2025.113898", "author": [ "Johannes Michel","Jonas Wagner","Frauke Holder","Felix Zaiß","Christian Hagenlocher","Thomas Graf" ], "authors": [ {"first" : "Johannes", "last" : "Michel"}, {"first" : "Jonas", "last" : "Wagner"}, {"first" : "Frauke", "last" : "Holder"}, {"first" : "Felix", "last" : "Zaiß"}, {"first" : "Christian", "last" : "Hagenlocher"}, {"first" : "Thomas", "last" : "Graf"} ], "volume": "192","pages": "113898","abstract": "High-strength aluminum alloys provide favorable material properties for components in modern battery systems, such as battery trays used in electromobility applications. However, laser welding of high-strength aluminum alloys at high welding speeds may result in the formation of transverse hot cracks in the weld seam, potentially causing component failure due to leakage. To determine strategies to avoid transverse hot cracks, the influence of the welding speed during full-penetration laser welding is analyzed both experimentally and theoretically using numerical simulations of the temperature field and the fluid flow. A metallographic analysis of the welded samples showed an increase in the number of transverse hot cracks with increasing welding speeds. The results revealed that a major mechanism for the formation of transverse hot cracks at high welding speeds is a significant reduction of the static pressure at the side of the melt pool, which impairs liquid feeding into the intergranular region. These findings provide fundamental knowledge for the development of optimization strategies to reduce the formation of transverse hot cracks at high welding speeds.", "language" : "English", "issn" : "0030-3992", "doi" : "10.1016/j.optlastec.2025.113898", "bibtexKey": "Michel_2025_Mechanisms_Cracks" } , { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/294faa804485904c094c72c020988f091/michaelsawannia", "tags" : [ "BeamShaping","Laser","Simulation","Welding","myown","peer" ], "intraHash" : "94faa804485904c094c72c020988f091", "interHash" : "58dcebe663f89a1102ef0499b290946e", "label" : "Numerical analysis of melt flow shaping by means of beam shaping and its effect on the thermal efficiency in laser welding", "user" : "michaelsawannia", "description" : "", "date" : "2025-03-05 08:58:45", "changeDate" : "2025-03-05 08:58:45", "count" : 3, "pub-type": "article", "journal": "Procedia CIRP","publisher":"Elsevier BV", "year": "2024", "url": "http://dx.doi.org/10.1016/j.procir.2024.08.177", "author": [ "Jonas Wagner","Christian Hagenlocher","Michael Sawannia","Alexander Ilin","Peter Stritt","Adina Dais","Reiner Ramsayer","Thomas Graf" ], "authors": [ {"first" : "Jonas", "last" : "Wagner"}, {"first" : "Christian", "last" : "Hagenlocher"}, {"first" : "Michael", "last" : "Sawannia"}, {"first" : "Alexander", "last" : "Ilin"}, {"first" : "Peter", "last" : "Stritt"}, {"first" : "Adina", "last" : "Dais"}, {"first" : "Reiner", "last" : "Ramsayer"}, {"first" : "Thomas", "last" : "Graf"} ], "volume": "124","pages": "574\u2013578", "issn" : "2212-8271", "doi" : "10.1016/j.procir.2024.08.177", "bibtexKey": "Wagner_2024" } , { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/294faa804485904c094c72c020988f091/ifsw", "tags" : [ "myown","Welding","Simulation","peer","Laser","BeamShaping" ], "intraHash" : "94faa804485904c094c72c020988f091", "interHash" : "58dcebe663f89a1102ef0499b290946e", "label" : "Numerical analysis of melt flow shaping by means of beam shaping and its effect on the thermal efficiency in laser welding", "user" : "ifsw", "description" : "", "date" : "2025-03-05 08:58:45", "changeDate" : "2025-03-05 08:58:45", "count" : 3, "pub-type": "article", "journal": "Procedia CIRP","publisher":"Elsevier BV", "year": "2024", "url": "http://dx.doi.org/10.1016/j.procir.2024.08.177", "author": [ "Jonas Wagner","Christian Hagenlocher","Michael Sawannia","Alexander Ilin","Peter Stritt","Adina Dais","Reiner Ramsayer","Thomas Graf" ], "authors": [ {"first" : "Jonas", "last" : "Wagner"}, {"first" : "Christian", "last" : "Hagenlocher"}, {"first" : "Michael", "last" : "Sawannia"}, {"first" : "Alexander", "last" : "Ilin"}, {"first" : "Peter", "last" : "Stritt"}, {"first" : "Adina", "last" : "Dais"}, {"first" : "Reiner", "last" : "Ramsayer"}, {"first" : "Thomas", "last" : "Graf"} ], "volume": "124","pages": "574\u2013578", "issn" : "2212-8271", "doi" : "10.1016/j.procir.2024.08.177", "bibtexKey": "Wagner_2024" } , { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/236fdb13c458ecf67f12590ff69616e3f/intcdc", "tags" : [ "pneumatics","from:itft-puma","AP5","born","finite-element-modeling","folding","IntCDC","simulation","gresser","itft","elastomer","2021","AP23","peer","fiber-reinforced-plastic","actuation" ], "intraHash" : "36fdb13c458ecf67f12590ff69616e3f", "interHash" : "2de903905c9e274c837ce27f38d4fba2", "label" : "Deformation Behavior of Elastomer-Glass Fiber-Reinforced Plastics in Dependence of Pneumatic Actuation", "user" : "intcdc", "description" : "", "date" : "2022-12-16 11:45:50", "changeDate" : "2022-12-16 10:45:50", "count" : 2, "pub-type": "article", "journal": "Biomimetics","publisher":"MDPI AG", "year": "2021", "url": "https://doi.org/10.3390%2Fbiomimetics6030043", "author": [ "Mona Mühlich","Edith A. 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Equations were derived that allow to simply calculate the tilt angle and the focal length of the gas lens for different temperatures of the disk and pump spot diameters for air as ambient medium.", "mendeley-groups" : "Airwedge Paper with Tom", "file" : ":C$\\backslash$:/Users/Christoph Röcker/AppData/Local/Mendeley Ltd./Mendeley Desktop/Downloaded/Dietrich et al. - 2020 - Modelling of natural convection in thin-disk lasers.pdf:pdf", "issn" : "0946-2171", "doi" : "10.1007/s00340-020-7394-6", "bibtexKey": "Dietrich2020" } , { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/2d8f327bc01a9efecda055eb32642b7ef/christophrcker", "tags" : [ "Laser","Peer","Simulation","ThindiskLaser","myown" ], "intraHash" : "d8f327bc01a9efecda055eb32642b7ef", "interHash" : "82027354775ffa1c9c3a6b6fc36b4517", "label" : "Modelling of natural convection in thin-disk lasers", "user" : "christophrcker", "description" : "", "date" : "2020-02-24 08:54:47", "changeDate" : "2020-02-24 07:55:24", "count" : 2, "pub-type": "article", "journal": "Applied Physics B","publisher":"Springer", "year": "2020", "url": "http://link.springer.com/10.1007/s00340-020-7394-6", "author": [ "Tom Dietrich","Christoph Röcker","Thomas Graf","Marwan Abdou Ahmed" ], "authors": [ {"first" : "Tom", "last" : "Dietrich"}, {"first" : "Christoph", "last" : "Röcker"}, {"first" : "Thomas", "last" : "Graf"}, {"first" : "Marwan", "last" : "Abdou Ahmed"} ], "volume": "126","number": "3","pages": "47","abstract": "In this paper, we present a FEM-model that can be used to investigate the effects of thermally induced natural convection at the thin-disk laser crystal. 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Equations were derived that allow to simply calculate the tilt angle and the focal length of the gas lens for different temperatures of the disk and pump spot diameters for air as ambient medium.", "mendeley-groups" : "Airwedge Paper with Tom", "file" : ":C$\\backslash$:/Users/Christoph Röcker/AppData/Local/Mendeley Ltd./Mendeley Desktop/Downloaded/Dietrich et al. - 2020 - Modelling of natural convection in thin-disk lasers.pdf:pdf", "issn" : "0946-2171", "doi" : "10.1007/s00340-020-7394-6", "bibtexKey": "Dietrich2020" } , { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/2d3772000a7eccc6e8311376d951c163a/thomas_graf", "tags" : [ "Laser","Modelling","Peer","Simulation","Welding" ], "intraHash" : "d3772000a7eccc6e8311376d951c163a", "interHash" : "0568b198cd0c45278ac41ac34da5cb2e", "label" : "Fast numerical method to predict the depth of laser welding", "user" : "thomas_graf", "description" : "", "date" : "2018-04-20 12:16:58", "changeDate" : "2018-04-20 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