Comparison of microstructure, toughness, mechanical properties and work hardening of titanium/TiO2 and titanium/SiC composites manufactured by accumulative roll bonding (ARB) process

Moradgholi, J.; Monshi, Ahmad; Farmanesh, Khosro; Toroghinejad, Mohammad Reza; Loghman-Estarki, Mohammad Reza

doi:10.1016/j.ceramint.2017.03.072

Cited by 17 publications

(5 citation statements)

References 32 publications

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“…In roll bonding, successful grain refinement, and removal of initial porosity and clustering is brought during the process after repeated cycles [ 103 , 104 ]. The ceramic particles have a strong metallurgical bond between the coating and the substrate without many clusters and particles free zones increasing microhardness [ 105 , 106 ].…”

Section: Resultsmentioning

confidence: 99%

Performance Comparison of Advanced Ceramic Cladding Approaches via Solid-State and Traditional Welding Processes: A Review

et al. 2020

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Ceramic coating has applications in enhancing the material’s properties and can significantly improve the material’s usability in varied temperatures and adverse operating conditions and widen its applicability scope. It can add to the various properties such as wear resistance, high-temperature degradation, thermal conductivity, material toughness, tensile strength, corrosion resistance, friction reduction, electric insulation, and the lifespan of the material. Various techniques have been suggested and implemented to achieve ceramic coating on a metal surface, each having their respective advantages and disadvantages. Hence, they can be distinguished for their applicability in different places. The bonding mechanism of metal particle systems has been researched to date, but there are still certain uncertainties regarding the ceramic particle system because of the dissimilarities in properties. The paper aims to profoundly investigate the various coating technologies available through welding processes and do a comparative study through numerical analysis and experimental results on the properties of coatings obtained from two broad categories of welding—solid-state and traditional/fusion processes. It was found that the solid-state processes in which the temperature remained well below the fusion temperatures overcame the mismatch in property and produced reliable coatings with enhanced mechanical properties.

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Section: Resultsmentioning

confidence: 99%

Performance Comparison of Advanced Ceramic Cladding Approaches via Solid-State and Traditional Welding Processes: A Review

et al. 2020

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“…The uniform distribution of grain boundaries in the microstructure of weld metal has improved the distribution of misalignments and the tensioning rate. [36] Therefore, if these reinforced mechanisms are considered linear, the theoretical strength (Δσ th ) of the CPT/RGO composites can be calculated as Equation (7).…”

Section: Tensile Strengthmentioning

confidence: 99%

“…GTAW has several advantages, including lower heat input, high‐quality welding, and the ability to weld very thin plates as demonstrated by Fattahi et al [ 4 ] Moreover, Fattahi et al [ 5 ] showed that heat treatment and adding the reinforcement materials to improve the microstructure in GTAW are currently receiving more attention. Since the fabrication of fine grains is a challenge in the production of composites, [ 6 ] recently Moradgholi et al [ 7 ] are used two particles as reinforcement that enhance the desired welding properties. A wide range of materials such as SiC, [ 8 ] TiO 2 , [ 9 ] TiC, [ 10 ] carbon nanotubes, [ 11 ] graphene, [ 12 ] and reduced graphene oxide (RGO) is evaluated by Dong et al [ 13 ] used to reinforce titanium matrix.…”

Section: Introductionmentioning

confidence: 99%

Effect of Titanium/Reduced Graphene Oxide Nanocomposite as a New Filler on the Properties of Gas Tungsten Arc Welding of Titanium

et al. 2021

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“…The interface alloy elements' diffusion is decreased, while the fracture elongation is increased by adding the Ni interlayer. During the accumulative roll bonding process (ARB), the interface strength and toughness can be improved by adding the SiC and TiO 2 powders [107][108][109].…”

Section: Interface Structurementioning

confidence: 99%

The Deformation Characteristics, Fracture Behavior and Strengthening-Toughening Mechanisms of Laminated Metal Composites: A Review

Gao

Zhang

Liu

et al. 2019

Metals

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Multilayer metal composites have great application prospects in automobiles, ships, aircraft and other manufacturing industries, which reveal their superior strength, toughness, ductility, fatigue lifetime, superplasticity and formability. This paper presents the various mechanical properties, deformation characteristics and strengthening–toughening mechanisms of laminated metal matrix composites during the loading and deformation process, and that super-high mechanical properties can be obtained by adjusting the fabrication process and structure parameters. In the macroscale, the interface bonding status and layer thickness can effectively affect the fracture, impact toughness and tensile fracture elongation of laminated metal matrix composites, and the ductility and toughness cannot be fitting to the rule of mixture (ROM). However, the elastic properties, yield strength and ultimate strength basically follow the rule of mixture. In the microscale, the mechanical properties, deformation characteristics, fracture behavior and toughening mechanisms of laminated composites reveal the obvious size effect.

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Comparison of microstructure, toughness, mechanical properties and work hardening of titanium/TiO2 and titanium/SiC composites manufactured by accumulative roll bonding (ARB) process

Cited by 17 publications

References 32 publications

Performance Comparison of Advanced Ceramic Cladding Approaches via Solid-State and Traditional Welding Processes: A Review

Performance Comparison of Advanced Ceramic Cladding Approaches via Solid-State and Traditional Welding Processes: A Review

Effect of Titanium/Reduced Graphene Oxide Nanocomposite as a New Filler on the Properties of Gas Tungsten Arc Welding of Titanium

The Deformation Characteristics, Fracture Behavior and Strengthening-Toughening Mechanisms of Laminated Metal Composites: A Review

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