Titanium boride and titanium silicide phase formation by high power diode laser alloying of B4C and SiC particles with Ti: Microstructure, hardness and wear studies

Monisha, K.; Shariff, S.M.; Ramesh, R.; Manonmani, J; Senthilselvan, J.

doi:10.1016/j.mtcomm.2022.103741

Cited by 8 publications

(3 citation statements)

References 79 publications

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“…Laser surface alloying have been used for improve mechanical properties and promote functional applications and of surfaces of advanced structural applications [30]. This technique makes it possible to obtain novel multiphase coatings to improve mechanical, wear properties and refine the microstructure [31].…”

Section: Surface Treatment By Coating Depositionmentioning

confidence: 99%

Cyclic Oxidation of Diffusion Aluminide Coatings

Kianicová¹

2023

Hypersonic and Supersonic Flight - Advances in Aerodynamics, Materials, and Vehicle Design

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The diffusion aluminide coatings are used for high-temperature applications. Structural materials of particular components degrade during service due to fatigue, creep, oxidation, corrosion and erosion. The requirements of higher efficiency of modern industrial applications increase the development of new structural materials, technologies and protective coatings. Properties of many structural materials such ultimate tensile strength, creep strength and fatigue are generally optimized for maximum high-carrying loading with less emphasis on environmental resistance. For these applications, the performance characteristics are limited by the operating conditions, which can be tolerated by the used materials. The main structural materials for high mechanical and thermal loading are superalloys protected against aggressive environment by coatings. Cyclic oxidation is the superposition of thermal cycles in an oxidation environment. The main goal of the experimental work was to compare the cyclic oxidation of protective Al and AlSi coatings deposited on both Inconel 713 LC and MAR-M247 superalloys. The resulting graph revealed that samples from IN 713 LC without coating show good resistance and their mass change is maintained above zero limit. Samples from MAR 247 LC with both Al and AlSi coatings appear to be the most acceptable selection of combination relating to superalloys/coating.

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Section: Surface Treatment By Coating Depositionmentioning

confidence: 99%

Cyclic Oxidation of Diffusion Aluminide Coatings

Kianicová¹

2023

Hypersonic and Supersonic Flight - Advances in Aerodynamics, Materials, and Vehicle Design

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“…Compared to other borides, Ti-B borides have received attention because of their high melting point and higher hardness. [20][21][22][23] For example, TiB 2 is regarded as hightemperature ceramics, while the melting point is greater than 3000 1C. 24 The calculated bulk modulus and shear modulus of hexagonal TiB 2 are 262 GPa and 256 GPa, 25 respectively.…”

Section: Introductionmentioning

confidence: 99%

Theoretical prediction of the structure and hardness of TiB₄ tetraborides from first-principles calculations

Pan

2023

Phys. Chem. Chem. Phys.

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“…Studies conducted to investigate the behaviour and manufacturing of Titanium Matrix Composites (TMCs) have been conducted for nearly four decades. From then on, many authors reported the diversity of methods to improve the properties of Ti and its alloys (Smith and Froes, 1984;Ranganath, 1997;Ravi Chandran et al, 2004;Ni et al, 2006;Tjong and Mai, 2008;Tang et al, 2013;Choi et al, 2014;Jiang et al, 2016;Tkachenko et al, 2018;Farías et al, 2019;Pan et al, 2021;Monisha et al, 2022). Insufficient mechanical and tribological properties of Ti and its alloys may detract from their implementation for uses and applications in which these properties were an imperative need.…”

Section: Introductionmentioning

confidence: 99%

Comparative study of the behaviour of several reinforcement materials in titanium matrix produced by Rapid Sinter Pressing Manufacturing

Montealegre-Meléndez¹,

Arévalo²,

Kitzmantel³

et al. 2022

revmetal

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Regarding titanium matrix composites (TMCs), their properties strongly depend on the reinforcement material employed for their manufacturing; this may lead to a multitude of investigations on TMCs. Considering the diverse typology of the reinforcement, six types of ceramic particles were tested in this investigation: B4C, SiB6, TiB2, TiC, TiN, and BN. In order to compare their behaviour and their own influence on the properties of the TMCs, the same ratio was employed in the starting materials, 30% volume. Among the techniques for developing TMCs, a significant number of authors propose Powder Metallurgy as a favourable route. In this framework, the novel Rapid Sinter Pressing technique was employed to perform the present study, due to its flexibility, repeatability, and reproducibility, as well as short-run cycle times. The processing temperature (930 °C) was set with the intention of evaluating how the reinforcements behave differently depending on their reactivity with the Ti matrix. In this regard, the main objective of the research was to carry out a comparison on the behaviour of seven TMCs fabricated with similar operational parameters via RSP.

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Titanium boride and titanium silicide phase formation by high power diode laser alloying of B4C and SiC particles with Ti: Microstructure, hardness and wear studies

Cited by 8 publications

References 79 publications

Cyclic Oxidation of Diffusion Aluminide Coatings

Cyclic Oxidation of Diffusion Aluminide Coatings

Theoretical prediction of the structure and hardness of TiB₄ tetraborides from first-principles calculations

Comparative study of the behaviour of several reinforcement materials in titanium matrix produced by Rapid Sinter Pressing Manufacturing

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Titanium boride and titanium silicide phase formation by high power diode laser alloying of B4C and SiC particles with Ti: Microstructure, hardness and wear studies

Cited by 8 publications

References 79 publications

Cyclic Oxidation of Diffusion Aluminide Coatings

Cyclic Oxidation of Diffusion Aluminide Coatings

Theoretical prediction of the structure and hardness of TiB4 tetraborides from first-principles calculations

Comparative study of the behaviour of several reinforcement materials in titanium matrix produced by Rapid Sinter Pressing Manufacturing

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Theoretical prediction of the structure and hardness of TiB₄ tetraborides from first-principles calculations