Characterization of Cobalt Based CoCrMo Alloy Fabricated by Powder Metallurgy Route

ABSTRACT The hydroxyapatite calcium phosphate based ceramic (Hap) is widely used for bone repair, as it is a biocompatible biomaterial and because it has osteoconductive and osteoinductive properties. However, the low mechanical strength of Hap may limit its applicability. Thus, the present work aims to improve the mechanical properties of Hap, associating it with alumina (Al2O3), using the powder metallurgy technique, which consists in the milling of the precursor powders in a planetary ball mill, uniaxial pressing and sintering. The microstructure and mechanical strength of the sintered samples were evaluated using density, microhardness, compressive strength and wettability tests. It was concluded that the use of Al2O3 in the composite improves the mechanical properties of Hap, while decreases its hydrophilic potential. Thus, the composition with 40% Hap / 60% Al2O3 was considered the best for biomedical applications.

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Fabrication and characterization of Cu reinforced with Y-enriched particles following a novel powder metallurgy route

Nuclear Materials and Energy ◽

10.1016/j.nme.2021.101075 ◽

2021 ◽

pp. 101075

Author(s):

A. Muñoz ◽

B. Savoini ◽

M.A. Monge ◽

Y. Ortega ◽

O.J. Dura

Keyword(s):

Powder Metallurgy ◽

Fabrication And Characterization ◽

Powder Metallurgy Route

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Studies on Titanium Cenosphere Composite Developed by Powder Metallurgy Route

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.1139.55 ◽

2016 ◽

Vol 1139 ◽

pp. 55-58 ◽

Cited By ~ 3

Author(s):

Dibyendu Dutta Majumdar ◽

Dehi Pada Mondal ◽

Amit Roy Chowdhury ◽

Harish Rao ◽

Jyotsna Dutta Majumdar

Keyword(s):

Powder Metallurgy ◽

Sintering Temperature ◽

Compressive Yield Strength ◽

Main Process ◽

Sintered Pellet ◽

Microstructural Investigation ◽

Sintering Time ◽

Property Evaluation ◽

Powder Metallurgy Route

The present study concerns detailed microstructural investigation and property evaluation of titanium-cenosphere composite developed by powder metallurgy route. The main process variables for the development of titanium-cenosphere composite were cenosphere particle size, sintering time, and sintering temperature. Followed by sintering, a detailed characterization of the sintered parts in terms of density, microstructure, composition and phase has been carried out. The compressive strength of the sintered component has also been evaluated in details. The density of the sintered pellets varied with process parameters and is significantly reduced (2.5-2.11 g/cm3) as compared to as-received titanium (4.5 g/cm3). The compressive yield strength of the sintered pellet is reduced as compared to as-received Ti-6Al-4V.

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