1 to 10 of 59 Results
Sep 16, 2021
Wagner, Jonas; Hagenlocher, Christian; Fetzer, Florian; Böhm, Constantin; Weber, Rudolf; Weihe, Stefan; Graf, Thomas, 2021, "Replication Data for: Numerical Analysis of the Local Solidification Conditions in Laser Beam Welding of Aluminum Alloys", https://doi.org/10.18419/darus-2106, DaRUS, V1
The here published experimental data was done in a collaborative DFG project between IFSW and MPA (project number 398552773). The published data is replication data for a publication. The data show high-speed videos of full-penetration laser beam welding of the aluminum alloy EN... |
Sep 16, 2021 -
Replication Data for: Numerical Analysis of the Local Solidification Conditions in Laser Beam Welding of Aluminum Alloys
MPEG-4 Video - 56.0 MB -
MD5: a6e89168eb7800fa07b9855ccb29d1b3
Demonstration of the method for the extraction of the melt pool geometry |
Sep 16, 2021 -
Replication Data for: Numerical Analysis of the Local Solidification Conditions in Laser Beam Welding of Aluminum Alloys
MPEG-4 Video - 67.3 MB -
MD5: 4582d13c491b38596ac3ff76347217d9
Full penetration laser beam welding of EN AW-6016 with v = 3 m/min |
Sep 16, 2021 -
Replication Data for: Numerical Analysis of the Local Solidification Conditions in Laser Beam Welding of Aluminum Alloys
MPEG-4 Video - 60.8 MB -
MD5: 1a68794069e183753c1b62725d872d6f
Full penetration laser beam welding of EN AW-6016 with v = 6 m/min |
Sep 16, 2021 -
Replication Data for: Numerical Analysis of the Local Solidification Conditions in Laser Beam Welding of Aluminum Alloys
MPEG-4 Video - 40.1 MB -
MD5: b67b2fb7cb5a28b9cbf8eb71a697b812
Full penetration laser beam welding of EN AW-6016 with v = 9 m/min |
Sep 16, 2021 -
Replication Data for: Numerical Analysis of the Local Solidification Conditions in Laser Beam Welding of Aluminum Alloys
MPEG-4 Video - 35.5 MB -
MD5: d2573c1a96de3cb453d6ef9ed35c56be
Full penetration laser beam welding of EN AW-6016 with v = 12 m/min |
Aug 31, 2021
Hagenlocher, Christian; Lind, Jannik; Wagner, Jonas; Hummel, Marc; Olowinsky, Alexander; Weber, Rudolf; Graf, Thomas, 2021, "Comparison of heat conduction mode and deep penetration mode by means of high-speed synchrotron X-ray videos during laser beam welding", https://doi.org/10.18419/darus-2078, DaRUS, V2
There are two modes of laser beam welding: the heat conduction mode and the full penetration mode. The heat conduction mode is present if the intensity of the laser beam is to low to evaporate but sufficient to melt the irradiated material. This welding mode results in a very sta... |
Aug 31, 2021 -
Comparison of heat conduction mode and deep penetration mode by means of high-speed synchrotron X-ray videos during laser beam welding
AVI Video - 1.8 GB -
MD5: f0eb78e1c38832f29c9edba5df5b7050
The video presents the heat conduction welding mode in the upper left and the deep penetration welding mode in the upper right. The metallographically prepared cross sections of the resulting welds are depicted below the corresponding video. |
Aug 5, 2021 - Joining Technology and Additive Manufacturing
Böhm, Constantin; Hagenlocher, Christian; Wagner, Jonas; Graf, Thomas; Weihe, Stefan, 2021, "Replication Data for: Analytical Description of the Criterion for the Columnar-To-Equiaxed Transition During Laser Beam Welding of Aluminum Alloys", https://doi.org/10.18419/darus-2075, DaRUS, V1
The here published experimental data was done in a collaborative DFG project between IFSW and MPA (project number 398552773). The published data is repilcation data for a publication. In this project laser beam weld trials were conducted and the resulting weld seams were prepared... |
PNG Image - 3.2 MB -
MD5: 0428e65d0e864e944f92624dccd7fdd5
Top surface of weld seam etched with Barker's method and viewed under polarized light. |