Microstructure and wear properties of laser cladded cBN/Ti3Al on pure titanium
- Authors: Sobiyi, K. K. , Akinlabi, Esther Titilayo
- Date: 2017
- Subjects: Titanium , Intermetallics , Laser cladding
- Language: English
- Type: Article
- Identifier: http://hdl.handle.net/10210/233614 , uj:23856 , Citation: Sobiyi, K.K. & Akinlabi, E.T. 2017. Microstructure and wear properties of laser cladded cBN/Ti3Al on pure titanium.
- Description: Abstract: In order to improve the tribological properties of titanium alloys at high temperature, the possibility of producing Ti3Al intermetallic with the addition of ceramics (cBN) coatings on titanium substrate using laser technique cladding was investigated. cBN is generally known for its high hot hardness, wear resistance and chemical stability. Laser cladding is an emerging material processing technique which is an efficient and cost effective technique for improving the surface properties of general metallic materials. This paper presents the effects of laser cladding on the phase combination, microstructure, hardness and wear resistance of titanium aluminide/cBN IMC composites at different variations in quantity of cBN in the composite. Optical microscopy, X-ray diffraction, and scanning electron microscopy (SEM) with EDX was used for characterizing the microstructure of the coating. In addition the composite coating was subjected to wear testing using the ball-on-disc, friction and wear apparatus. The XRD results revealed phases with small cBN, Ti2N and TiB2 peaks in addition to the rich γ-Ti, α2- Ti3Al and TiAl intermetallics phases in the coatings after cladding process. Whereas, the microstructure of the cBN cladded layer contained partially melted cBN grains evenly dispersed within the laths of alpha Widmanstätten phase in form of dendrites, precipitate of α2- Ti3Al and spherical shaped pure titanium. The effect of the addition of cBN into Ti3Al alloy at increasing weight percentages, showed an improvement in the hardness and wear resistance of the coatings. The increase is attributed to reacted boron nitrides particles with titanium, being distributed uniformly in the intermetallic matrix.
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The influence of scanning speed on laser metal deposition of Ti/TiC powders
- Authors: Sobiyi, K. K. , Akinlabi, Esther Titilayo , Akinlabi, Stephen A.
- Date: 2017
- Subjects: Titanium , Lasers , Metal deposition
- Language: English
- Type: Article
- Identifier: http://hdl.handle.net/10210/241302 , uj:24840 , Citation: Sobiyi, K.K. 2017. The influence of scanning speed on laser metal deposition of Ti/TiC powders.
- Description: Abstract: This paper describes the experimental work performed on laser metal deposition (LMD) of titanium carbide powders on pure titanium substrate. The understanding the effect of LMD processing parameters is vital in controlling the properties of the final product fabricated from the LMD process. The objective of the study is to characterize the influence of laser scanning speed of metal deposition of titanium and titanium carbide powders on pure titanium substrate. Microstructural characterization results showed that the substrate is characterized by two-phase morphology; alpha and beta phase. Deposit zone microstructures showed that the grains are of continuous columnar in nature. Heat affected zone region grain areas appear to decrease with increasing in scanning speed for different samples at different scanning speeds. The height of samples at different scanning was observed to decrease with increase in scanning speed. Microhardness results showed that the hardness of the deposits is greater than the hardness of the substrate. Wear resistance performance results showed that the coefficient of friction of substrate is greater than the coefficient of friction of the deposit samples. Wear volume loss of material of the substrate is higher than the deposits. The deposit contains titanium carbide and, as such, this powder has improved the wear resistance performance of the substrate.
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