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Research on Surface Treatment Coating on Titanium Alloy Based on Laser Cladding Technology
Technical Paper
2023-01-0980
ISSN: 0148-7191, e-ISSN: 2688-3627
Annotation ability available
Sector:
Event:
2023 AeroTech
Language:
English
Abstract
This paper will illustrate the surface treatment coating that forms a strong
metallurgical bond between the titanium alloy matrix regarding the high friction
properties and challenging lubricating of titanium alloys. In this research, TC4
has been selected as a base material instead of TiC. Then Ni-composite coating
was employed as the surface treatment of TC4 by laser cladding (LC) process. The
Ni-based alloy coating material powder is good self-fluxing, has
high-temperature resistance, and is analytically pure with 200 mesh. The
chemical properties of Ni composite coating include 31.2 % Chromium, 8%Titenium,
and 3.6% Carbon. Overall characterization and microstructure analysis of the
prepared coating utilizing OM, XRD, SEM, EDS, and EPMA with different
laser-specific energies (LSP) performance impact. It is evident that an
excellent coating can be employed at the LSP of about 12.5kJ/cm2. The
TiC ceramic particle reinforced phase is dispersed into a two-phase solid
solution of β-Ti and γ-Ni. The micro-hardness of the employed coating is greater
than the base alloy. This research also optimized that laser power is
proportional to the coating structure. This research has practical value in the
modern aerospace and automobile industry to increase the application of titanium
alloy.
Authors
- Md Helal Miah - Chandigarh University, Department of Mechanical Engineering
- Dharmahinder Singh Chand - Chandigarh University, Department of Aerospace Engineering
- Gurmail Singh Malhi - Chandigarh University, Department of Aerospace Engineering
- Shahrukh Khan - Beihang University, Department of Mechanical Engineering and
- Abdullah al Muin - Tsinghua University, School of Mechanical Engineering
Topic
Citation
Miah, M., Chand, D., Malhi, G., Khan, S. et al., "Research on Surface Treatment Coating on Titanium Alloy Based on Laser Cladding Technology," SAE Technical Paper 2023-01-0980, 2023, https://doi.org/10.4271/2023-01-0980.Also In
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