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Optimizing the Parameters of Spark Plasma Sintering to Enhance the Hardness of MgO/TiC Composites

by Rathinam, R. , Capangpangan, Rey Y. , Sharma, Vijay Kumar , Karanam, Sai Ashish Kumar , Achamyeleh, Tariku , Mouria, Pradeep Kumar , Gonzales, Jose Luis Arias , Livingston, T. Stephen , Alguno, Arnold C.

in Biodegradable materials / Densification / Design of experiments / Diamond pyramid hardness / Heat treating / Magnesium oxide / Mechanical properties / Metal matrix composites / Optimization techniques / Parameters / Particle size / Physical properties / Plasma sintering / Powder metallurgy / Rockwell hardness / Spark plasma sintering / Superconductors (materials) / Taguchi methods / Variance analysis

2023

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Optimizing the Parameters of Spark Plasma Sintering to Enhance the Hardness of MgO/TiC Composites

2023

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2023

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Journal Article

Optimizing the Parameters of Spark Plasma Sintering to Enhance the Hardness of MgO/TiC Composites

Rathinam, R.,

Capangpangan, Rey Y.,

Sharma, Vijay Kumar,

Karanam, Sai Ashish Kumar,

Achamyeleh, Tariku,

Mouria, Pradeep Kumar,

Gonzales, Jose Luis Arias,

Livingston, T. Stephen,

Alguno, Arnold C.

2023

Overview

In this research, the first work was carried out to manufacture MgO-based metal matrix composite containing 3 wt%. Sintering parameters, such as temperature, pressure, and time were subjected to Taguchi analysis to identify the most significant effect on magnesium oxide physical and mechanical characteristics. The impact of each sintering parameter explores using the analysis of variance-structure and microstructure analysis using XRD and EDS-equipped FE-SEM. The mechanical properties of the composite are evaluated by testing its Rockwell hardness (HR) and Vickers hardness (HV). The results showed that sintering temperature was the most influential of the sintering factors on microhardness. Densification at its peak was 100%, while it peaked at 62.19 Rockwell hardness and 58.7 Vickers hardness.

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Publisher

Hindawi,John Wiley & Sons, Inc,Wiley

Subject

Biodegradable materials

/ Densification

/ Design of experiments

/ Diamond pyramid hardness

/ Heat treating

/ Magnesium oxide

/ Mechanical properties