Add to ORKGMotivated by the growth of the e-mobility sector and the fact that large arrays of welds are required for each finished assembly, this article first reviews some of the most established and adopted sensor technologies and closed-loop control strategies for laser beam welding; and, then discusses current challenges and future perspectives towards the full digitalisation of the laser beam welding in line with the current trend of Industry 4.0 and Industrial Internet of Things
<p>The purpose of the bookmarks for the project Photonics4All is to increase the public awareness of...
Remote Laser Welding (RLW) combines the positive features of tactile laser welding with additional b...
Laser Welding (LW) is more often used in manufacturing due to its advantages, such as accurate cont...
Laser welding is the industrially accepted method for the joining of Cu hairpin windings in the prod...
In up-to-date industry laser welding has become a well-founded joining technology. High productivity...
Industry 4.0 and the Internet of Things have revolutionized every manufacturing process, and the wel...
Laser welding is an established manufacturing technology for a large variety of automotive applicati...
Copyright: © 2021 by the authors. Laser micro-welding manufacturers face substantial challenges in v...
Among novel techniques, laser welding is considered an adaptable and rapidly evolving method, findin...
The benefits of laser welding include higher production values, deeper penetration, higher welding s...
Laser beam welding processes, with their inherent potential of controlling the energy input, give ri...
1. introduction: The increasing requirements of the automotive production in terms of the flexibiliz...
The key-note presents latest scientific findings of the Laser Technology Competence Center (LTCC) of...
<p>The purpose of the bookmarks for the project Photonics4All is to increase the public awareness of...
Laser and hybrid laser-arc welding are used at present in modern industry, having many advantages ov...
<p>The purpose of the bookmarks for the project Photonics4All is to increase the public awareness of...
Remote Laser Welding (RLW) combines the positive features of tactile laser welding with additional b...
Laser Welding (LW) is more often used in manufacturing due to its advantages, such as accurate cont...
Laser welding is the industrially accepted method for the joining of Cu hairpin windings in the prod...
In up-to-date industry laser welding has become a well-founded joining technology. High productivity...
Industry 4.0 and the Internet of Things have revolutionized every manufacturing process, and the wel...
Laser welding is an established manufacturing technology for a large variety of automotive applicati...
Copyright: © 2021 by the authors. Laser micro-welding manufacturers face substantial challenges in v...
Among novel techniques, laser welding is considered an adaptable and rapidly evolving method, findin...
The benefits of laser welding include higher production values, deeper penetration, higher welding s...
Laser beam welding processes, with their inherent potential of controlling the energy input, give ri...
1. introduction: The increasing requirements of the automotive production in terms of the flexibiliz...
The key-note presents latest scientific findings of the Laser Technology Competence Center (LTCC) of...
<p>The purpose of the bookmarks for the project Photonics4All is to increase the public awareness of...
Laser and hybrid laser-arc welding are used at present in modern industry, having many advantages ov...
<p>The purpose of the bookmarks for the project Photonics4All is to increase the public awareness of...
Remote Laser Welding (RLW) combines the positive features of tactile laser welding with additional b...
Laser Welding (LW) is more often used in manufacturing due to its advantages, such as accurate cont...