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Mechanical Properties of Titanium Diboride

Because of their excellent properties, aluminum alloys with silicon, magnesium, and copper have been extensively used as alloying elements in various applications. In recent decades, aluminum matrix composites (AMCs) have been an advanced engineering material widely utilized in diverse engineering applications, including aircraft, automobile, marine, and shipbuilding, owing to their low density, lightweight, good stiffness, superior strength, and good tribological properties. Aluminum is abundant, and its use is as vast as the ocean. It is also the most used matrix material in the composite arena. Therefore, incorporating a ceramic particle into a relatively soft aluminum matrix improves hardness, strength, stiffness, creep, fatigue, and wear properties instead to conventional materials. This article is an assay to review and spotlight some recent works on the mechanical behaviors of aluminum-based titanium diboride-reinforced metal matrix composite. This review article concentrates on the mechanical properties and the fabrication processes of Al-TiB2 composites to provide a valuable reference to nurture future research precisely. In the past few decades, aluminum matrix composite has acted an essential role in material science, especially in aircraft, marine, automobile, transportation, and defense sectors. Several investigations have reported that including ceramic filler in the matrix improves the mechanical, physical, and tribological properties. Aluminum matrices incorporated with hard ceramic filler contents expose the augmented mechanical properties compared to plain alloy materials. Exhibits the list of wrought aluminum alloys. Due to their high strength-to-weight ratio, high thermal conductivity, good corrosion resistance, and improved mechanical properties, aluminum metal matrix composites (AMCs) are increasingly used as structural materials.

Composite materials are becoming more popular due to their unique properties and high strength-to-weight ratio. Ceramic particles provide exceptional strength and wear resistance to AMCs.Reveals the classification of the aluminum composite fabrication process. A large range of filler particles such as SiC, Si3N4, ZrN, TiN, TiB2, Al2O3, BN, W.C., and SiO2 has used the reinforcements to manufacture composites. Among the other filler materials, titanium diboride (TiB2) is a promising candidate filler material for aluminum-based composites. It exhibits an enticing combination of mechanical and physical properties, superior strength, perfect hardness, high melting point, excellent corrosion resistance, and excellent wear protection. If you are looking for high quality, high purity, and cost-effective zinc sulfide, or if you require the latest price of zinc sulfide, please feel free to email contact mis-asia.

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