Microstructure, microhardness and corrosion resistance of laser cladding Al2O3@Ni composite coating on 304 stainless steel

Zhang, Pengxiang; Yan, Hong; Sun, Yonghui

doi:10.1007/s10853-020-05741-w

Cited by 15 publications

(3 citation statements)

References 45 publications

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“…The reason why the dendrites are clustered and directional is that the distance between adjacent melt paths is close during laser cladding, and some materials will have secondary crystallization during lapping. The growth direction of columnar dendrites is changed, and these crystals grow in the direction of the previous coating surface, that is, in a negative direction along a temperature gradient [27]. The microstructure at (c) is composed of columnar dendrites with different orientations and mixed cellular crystals along the arc of the lapping surface.…”

Section: Experimental Results and Discussion 31 The Influence Of Diff...mentioning

confidence: 99%

Study on overlap rate and machinability of selected laser melting of maraging steel

Yang,

Li,

Liu

et al. 2023

Materials Science-Poland

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In order to investigate the material properties of maraging steel laser additive manufacturing, the cladding layers with different overlap rates on the surface of 18Ni300 were prepared by laser cladding technology, and the morphology, microstructure, and hardness of the cladding layer with different overlap rates were analyzed by various means. The results show that the macroscopic morphology of the cladding layer mainly presents three states under different overlap rates, and the change of overlap rate has no effect on the microstructure in the same area of the cladding layer, but does have an effect on the size of the cladding layer. In the end, the optimum overlap rate is 50%, the surface is smooth, the inner is free from defects, the bonding effect is good, and the metallographic structure is even with high hardness. Milling experiments were carried out on the material after laser additive manufacturing, and the surface morphology was observed, confirming a smooth and well-flattened surface with a roughness of 0.342 μm had been obtained. The suitable overlap rate can make the coating surface smoother, reduce the subsequent processing loss, and improve the production efficiency and powder utilization rate while ensuring the coating quality.

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Section: Experimental Results and Discussion 31 The Influence Of Diff...mentioning

confidence: 99%

Study on overlap rate and machinability of selected laser melting of maraging steel

Yang,

Li,

Liu

et al. 2023

Materials Science-Poland

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“…However, its surface properties and tribological properties are not very good, it cannot be used as a key moving tribological component [2]. In this situation, a lot of research has been done to improve the resistance to wear and surface hardness of AISI 304SS, and various surface modification processes are extensively used for this [3]. Recent research has shown the existence of many surface modification techniques including thermal spraying [4], laser cladding [5], electron beam cladding [6], etc.…”

Section: Introductionmentioning

confidence: 99%

Effect of cobalt addition on wear behaviour of TiB₂ coating produced by TIG cladding process

Kumar,

Kumar Das

2023

Eng. Res. Express

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In this paper, the mechanical and tribological characteristics of TiB2 ceramic coating with and without cobalt (Co) addition developed using tungsten inert gas (TIG) cladding process on AISI 304 stainless steel (SS) were investigated. The effect of TIG process conditions as well as cobalt (Co) content on the microstructure, microhardness and resistance to wear were investigated systematically. The phase identification, microstructure, and elemental distribution map of the clad layer formed on the surface of an AISI 304SS substrate were characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM), and energy dispersive spectroscopy (EDS), respectively. Vickers microhardness testing apparatus and a pin-on-disc tribometer were used to evaluate the microhardness, resistance to wear, and coefficient of friction (COF), respectively. The result demonstrates that a dense and defect-free composite coating with a strong metallurgical bond to the substrate is possible. The average microhardness of the TiB2 ceramic coating without Co addition was 1704 HV, and the average wear rate was 15.1576×10-9 g/N-m. In contrast, the TiB2 ceramic coating with Co addition exhibited an improved average microhardness of 1860 HV and a reduced average wear rate of 22.7364×10-9 g/N-m, while the AISI 304SS substrate had an average microhardness of 216 HV and an average wear rate of 200.45×10-9 g/N-m. The conclusion is that the TiB2 ceramic coating with Co addition exhibited superior mechanical and tribological characteristics, demonstrating its suitability for use in wear-resistant components. The higher microhardness of the TiB2 ceramic with Co-added coating indicates enhanced hardness and potential resistance to deformation, while the lower wear rate suggests improved durability and the ability to withstand frictional forces. Therefore, the TiB2 ceramic coating with Co addition shows promise for applications where wear resistance is crucial.

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“…It is an effective method to improve the performance of Ni-based coatings by adding reinforced ceramic particles [23]. The ceramic particles mainly include oxides [24], carbides [25], silicides [26], borides [27] and nitrides [28] of transition metal elements. Among these ceramic phases, WC has a high melting point, high hardness, a low thermal expansion coefficient and good wettability with nickel-based alloys [29].…”

Section: Introductionmentioning

confidence: 99%

Research on Wear and Corrosion Resistance of Ni60-WC Coating Fabricated by Laser on the Preheated Copper Alloy

Liu

Li³

2022

Coatings

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The copper alloy is widely used to prepare pipes in ocean engineering. The surface is washed and corroded by seawater for a long time, which gradually shortens the service life of the condenser tube. In order to improve the wear and corrosion resistance of copper alloy, a Ni60-WC coating was fabricated on a preheated copper alloy by laser cladding. Experiments on the Ni60-WC coatings were carried out by SEM, XRD, Vickers-microhardness meter, wear tester and electrochemical workstation. The microstructure, phases, hardness, wear and corrosion resistance were investigated. The results show that from the top to bottom, the microstructures were columnar dendrites, dendritic crystals and grains, respectively. The wear rate of the Ni60-WC coating was only 4.9 × 10−5 mm3·N−1·m−1, which was only 1.14% of copper substrate. In addition, the corrosion current density was 2.34 × 10−7 mA·mm−2, which was much lower than that of copper alloy substrate (1.14 × 10−6 mA·mm−2). The experimental results show that this Ni60-WC coating has a good metallurgical bonding and hardness, and it also has good wear and corrosion resistance, which is helpful to improve the service life of the condenser tube.

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Microstructure, microhardness and corrosion resistance of laser cladding Al2O3@Ni composite coating on 304 stainless steel

Cited by 15 publications

References 45 publications

Study on overlap rate and machinability of selected laser melting of maraging steel

Study on overlap rate and machinability of selected laser melting of maraging steel

Effect of cobalt addition on wear behaviour of TiB₂ coating produced by TIG cladding process

Research on Wear and Corrosion Resistance of Ni60-WC Coating Fabricated by Laser on the Preheated Copper Alloy

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Microstructure, microhardness and corrosion resistance of laser cladding Al2O3@Ni composite coating on 304 stainless steel

Cited by 15 publications

References 45 publications

Study on overlap rate and machinability of selected laser melting of maraging steel

Study on overlap rate and machinability of selected laser melting of maraging steel

Effect of cobalt addition on wear behaviour of TiB2 coating produced by TIG cladding process

Research on Wear and Corrosion Resistance of Ni60-WC Coating Fabricated by Laser on the Preheated Copper Alloy

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Effect of cobalt addition on wear behaviour of TiB₂ coating produced by TIG cladding process