Thermal field monitoring and analysis of its influence on Direct Laser Deposition of single tracks of a nickel superalloy

Sabina L. Campanelli; Andrea Angelastro; Marco Latte; Antonella Rizzo; Fania Palano

doi:10.1117/12.2297667

26 February 2018 Thermal field monitoring and analysis of its influence on Direct Laser Deposition of single tracks of a nickel superalloy

Sabina L. Campanelli, Andrea Angelastro, Marco Latte, Antonella Rizzo, Fania Palano

Author Affiliations +

Proceedings Volume 10523, Laser 3D Manufacturing V; 105231B (2018) https://doi.org/10.1117/12.2297667
Event: SPIE LASE, 2018, San Francisco, California, United States

Abstract

Direct Laser Metal Deposition (DLMD) has been successfully applied for the coating or the repair of several kind of components, such as molds and dies. Recently, the aeronautical sector is also showing a high interest in this process for the repair of turbines and transmissions. However, technical requirements to be met for the repair of aeronautical components are much more stringent than standards of other industrial fields. Some of the deposited material defects that need to be carefully controlled are cracks and porosity, which largely depend on the temperature peaks and the cooling rates generated during the process. The aim of this work is to monitor the temperature field that was generated during the DLMD process, analyze its variation with some process parameters and study its effects on clad geometry and on dilution with the substrate. In this research, a number of experimental tests were designed for the deposition of single clads of a Nickel superalloy powder on an AISI 304 stainless steel substrate, using an Ytterbium fiber laser source. Temperature fields monitoring was carried out using a thermal camera capable of detecting temperatures up to 2500 °C.

Citation Download Citation

Sabina L. Campanelli, Andrea Angelastro, Marco Latte, Antonella Rizzo, and Fania Palano "Thermal field monitoring and analysis of its influence on Direct Laser Deposition of single tracks of a nickel superalloy", Proc. SPIE 10523, Laser 3D Manufacturing V, 105231B (26 February 2018); https://doi.org/10.1117/12.2297667

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