Effect of microwave sintering on the mechanical characteristics of Al/kaoline/SiC hybrid composite fabricated through powder metallurgy techniques

Venkatesh, V. S. S.; Deoghare, Ashish B.

doi:10.1016/j.matchemphys.2022.126276

Cited by 15 publications

(5 citation statements)

References 50 publications

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“…Generally, the metal matrix composites produced via PM route has porosity defectissues [57]. From many studiesliteratures, it is understood that, boththe compressive and tensile strengths of the composite samples increased with for the increase inthe weight or volume percentage of the reinforcement particles [58][59][60][61]. However, the strength of the composites wasis lower for the samples fabricated through PM than other liquid based methods, such as casting., in-situ etc.…”

Section: Methodsmentioning

confidence: 99%

Effects of hydroxyapatite addition on the microstructure and mechanical properties of sintered magnesium matrix composites

Jayasathyakawin¹,

Ravichandran²,

Ismail

et al. 2023

Materials Today Communications

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Section: Methodsmentioning

confidence: 99%

Effects of hydroxyapatite addition on the microstructure and mechanical properties of sintered magnesium matrix composites

Jayasathyakawin¹,

Ravichandran²,

Ismail

et al. 2023

Materials Today Communications

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“…2. the existence of different deformation behaviour of the aluminium and the hap reinforcements creates the triaxial stress at the interface regions [21]. the formation of alpo 4 (aluminium phospate) intermetallic compound identified at a 2θ value of 48.92° angle for the Al-15% HAp composite sintered through MaS technique as depicted in fig.…”

Section: Xrd and Microstructural Investigationmentioning

confidence: 98%

Archives of Metallurgy and Materials

2022

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CharaCterization of MiCrowave Sintered aluMiniuM CoMpoSite reinforCedwith hydroxyapatite extraCted froM rihu fiSh SCaleS in this study, hydroxyapatite (hap) is extracted from the rihu fish scales which are generally dumped as garbage. the aluminium composite was fabricated through the powder metallurgy technique by reinforcing hap (0, 5, 10 and 15 wt%) as a reinforcement. The fabricated samples were sintered through microwave sintering at 530℃ for 15 min under an argon gas environment. the fabricated composites were subjected to X-ray diffraction (Xrd), Scanning electron Microscopy (SeM) and energy dispersive Spectroscopy (edS) analysis to confirm the constituting elements and to describe the reinforcement dispersion in the matrix. Uniform reinforcement dispersion was observed for the composite reinforces with 5%hap, 10%hap particles. the mechanical characterization results reveal that the al-10% hap composite exhibits a microhardness value of 123 ± 3 hv and maximum ultimate tensile strength of 263 ± 10 Mpa and 299 ± 9 Mpa compression strength was obtained due to the presence of a strong bond among the aluminium and hap particles.

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“…They used a microwave with a power of 1.5 kW and a frequency of 2.45 GHz to sinter the composite material in a regular working environment at 500 °C. According to their findings, the formation of secondary intermetallic (Al 4 C 3 ) during processing increased the material's compressive response by 22.29% [26]. Similarly, Reddy et al observed improved hardness and compressive characteristics in Al with Cu 50 Ti 50 amorphous alloy reinforcement processed with microwave hybrid sintering.…”

Section: Introductionmentioning

confidence: 95%

Evaluation of susceptor-assisted microwave-sintering-produced Al-Y₂O₃ composite material's compression and reciprocating wear performance

Bhoi,

Singh

2023

Phys. Scr.

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The manufacturing of a composite material out of aluminium (Al) and yttrium oxide (Y2O3) was achieved via the use of the microwave hybrid sintering method, which is an energy-efficient and eco-friendly production process. Compression and dry reciprocating wear tests are conducted on the manufactured material to learn more about the function of reinforcing particles in composites. The exothermic temperature marginally shifts (1 °C) when Y2O3 reinforcement is added to the Al matrix. The average micro hardness of composites with 2 wt.% Y2O3 is 43 Hv, which is an improvement over the previous value of 36 Hv. In addition, the composite material's compressive strength improved by 38.78% in comparison to that of Al. In a dry reciprocating wear test, the composite material with 2 wt.% Y2O3 nanoparticle showed a reduction in mass loss of 20%. The even distribution of reinforcing components throughout the material and the advent of intermetallic Al3Y in composites are likely responsible for this.

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Effect of microwave sintering on the mechanical characteristics of Al/kaoline/SiC hybrid composite fabricated through powder metallurgy techniques

Cited by 15 publications

References 50 publications

Effects of hydroxyapatite addition on the microstructure and mechanical properties of sintered magnesium matrix composites

Effects of hydroxyapatite addition on the microstructure and mechanical properties of sintered magnesium matrix composites

Archives of Metallurgy and Materials

Evaluation of susceptor-assisted microwave-sintering-produced Al-Y₂O₃ composite material's compression and reciprocating wear performance

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Effect of microwave sintering on the mechanical characteristics of Al/kaoline/SiC hybrid composite fabricated through powder metallurgy techniques

Cited by 15 publications

References 50 publications

Effects of hydroxyapatite addition on the microstructure and mechanical properties of sintered magnesium matrix composites

Effects of hydroxyapatite addition on the microstructure and mechanical properties of sintered magnesium matrix composites

Archives of Metallurgy and Materials

Evaluation of susceptor-assisted microwave-sintering-produced Al-Y2O3 composite material's compression and reciprocating wear performance

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Evaluation of susceptor-assisted microwave-sintering-produced Al-Y₂O₃ composite material's compression and reciprocating wear performance