Investigation of powder fed laser cladding of NiCr-chromium carbides single-tracks on titanium aluminide substrate

•Processing window was developed for the laser cladding of NiCrC composite coating.•The correlations of the processing parameters and geometrical features are predicted.•The correlations are established in terms of a combined parameter (Pα.Sβ.Fγ).•Different forms of chromium carbides were found in t...

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Bibliographic Details
Published in:Optics and laser technology 2019-11, Vol.119, p.105652, Article 105652
Main Authors: Aghili, S.E., Shamanian, M.
Format: Article
Language:English
Subjects:
Chromium carbide
Correlation coefficients
Cr3C2[sbnd]NiCr
Dependence
Dilution
Empirical analysis
Empirical dependency
Intermetallic compounds
Laser beam cladding
Laser cladding
Laser process parameter
Lasers
Microhardness
Microstructure
Penetration depth
Process parameters
Regression analysis
Solid solutions
Substrates
Titanium
Titanium aluminides
Titanium base alloys
Wetting
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Summary:•Processing window was developed for the laser cladding of NiCrC composite coating.•The correlations of the processing parameters and geometrical features are predicted.•The correlations are established in terms of a combined parameter (Pα.Sβ.Fγ).•Different forms of chromium carbides were found in the microstructure. In the present study, a Cr3C2NiCr powder mixture was used to fabricate laser claddings on a titanium aluminide (TiAl) substrate. The effect of processing parameters, such as laser power (P), powder feeding rate (F) and scanning speed (S), were studied on the geometrical properties (height, width, dilution and wetting angle) of single-line claddings and their systematic correlation were predicted using the regression analysis method. The results indicated that the clad height showed a linear dependency on the P1.S−1.F0.85 parameter. Similarly, the width, wetting angle and penetration depth depicted a linear dependency on the P1.S−1.F−0.7, P0.8.S−0.7.F1 and P0.75.S0.5.F−1 parameters, respectively, while the dependency on dilution was S0.8.F−0.8. High values of the correlation coefficient were observed for all empirical dependencies. Finally, a processing window was developed for the laser cladding of the Cr3C2NiCr powder mixture on the TiAl substrate. The microstructure analysis of the optimal cladding showed that the microstructure was covered with different chromium carbides (Cr3C2, Cr7C3 and Cr23C6), together with the Ni(Cr) solid solution. The microhardness of the optimal clad was found to be around 820 HV, which was higher than that of the titanium aluminide substrate (320 HV).
ISSN:0030-3992
1879-2545
DOI:10.1016/j.optlastec.2019.105652