Automation of a repair process by robot-guided cold spray
Publication date
2025-03-17
Document type
Forschungsartikel
Organisational unit
Publisher
Springer
Series or journal
Journal of Thermal Spray Technology
ISSN
Periodical volume
34
Periodical issue
5
First page
1545
Last page
1565
Peer-reviewed
✅
Part of the university bibliography
✅
Language
English
Keyword
dtec.bw
Abstract
The growing importance of conserving natural resources is driving the demand for advanced repair techniques. In this context, cold spray is emerging as a highly promising technique for repairing metallic components. This process offers significant advantages, such as the deposition of heat- and oxidation-sensitive materials. However, to utilize cold spray as an efficient and reliable repair technique, it is essential to integrate automation and robotics. This work proposes a concept for the automation of a repair process by robot-guided cold spray. The comprehensive workflow begins with the sensor-based inspection of the damaged region, followed by the automated extraction of the damage volume to define the dimensions for the subsequent material removal. In the next step, pre-machining is virtually planned and simulated to prepare the component surface for material deposition by removing the damaged volume while considering the surface preconditions for cold spray. This is followed by the planning and simulation of the material deposition for effective and material-efficient filling of the machined cavity. This includes automated planning of the robot trajectories, starting with initial trajectory planning, followed by trajectory optimization using mathematical optimization and a material deposition model to account for the various requirements and to ensure an optimal repair process. Once the simulations of pre-machining and material deposition have been completed, the control codes are transferred to the real robot control in the laboratory. Finally, the concept enables sensor-based inspection of the material deposit, allowing the deposit height to be compared with the simulation result as quality proof. The full workflow of this concept has been successfully applied by simulation and laboratory experiments. The results prove the utility of this concept and demonstrate the successful automation of a repair process by robot-guided cold spray.
Description
This article is an invited paper selected from presentations at the 2024 International Thermal Spray Conference, held April 29 -May 1, 2024, in Milan, Italy, and has been expanded from the original presentation.
This article is licensed under a Creative Commons Attribution 4.0 International License (https://creativecommons.org/licenses/by/4.0/).
Version
Published version
Access right on openHSU
Metadata only access
Open Access Funding
Springer Nature (DEAL)