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Preparation and mechanical properties of zirconia-basad nano-hydroxyapatita functionally graded material.

Authors :
Niu Yueyue
Wang Chunyan
Shu Jingyuan
Cui Yingying
Liu Zhen
Gao Yan
Wang Qian
Wang Qingshan
Source :
Chinese Journal of Tissue Engineering Research / Zhongguo Zuzhi Gongcheng Yanjiu. 4/8/2020, Vol. 24 Issue 10, p1528-1533. 6p.
Publication Year :
2020

Abstract

BACKGROUND: Studies have shown that the nano-hydroxyapatite coating on the surface of zirconia has not only high strength and toughness, but also good biocompatibility. It is an ideal substitute for hard tissue. However, the coating is easy to fall off from the surface of zirconia, which is a fatal defect. OBJECTIVE: To prepare functionally graded bioceramics with pure zirconia as matrix, gradient layer in the middle and nano-hydroxyapatite on the surface by gradient composite technology and to screen the optimal mechanical properties and sintering temperature. METHODS: Using zirconia and nano hydroxyapatite powder as raw materials, ceramic specimens were prepared by the lamination method in powder metallurgy. According to the thickness of zirconia layer, three groups A (40 mm), B (30 mm) and C (20 mm) were designated. Each group was sub-divided into three subgroups 1 (3 layers), 2 (Slayers) and 3 (7 layers). Thus, there were 162 ceramic specimens in nine subgroups. The ceramic specimens were sintered at different temperatures (1 300, 1 350, 1 400, 1 450, 1500, and 1 550 °C) and then processed into rectangular specimens for mechanical property testing. RESULTS AND CONCLUSION: The zirconia-based nano-hydroxyapatite functionally graded material can be formed by 10 MPa single side vertical pressure. With the increases in the number of gradient layers and sintering temperature, the mechanical properties of the functionally graded bioceremics in each group were enhanced. The functionally graded bioceramics had the optimal mechanical properties when sintering temperature was 1 550 °C. the number of gradient layers was 7. and substrate thickness was 40 mm. The optimal mechanical property of the functionally graded bioceramics produced at above parameter was significantly superior to that produced at other eight sets of parameters (P < 0.05). According to the optimal gradient design, the zirconia-based nano-hydroxyapatite functionally graded ceramic specimens prepared by high temperature sintering technique have stronger mechanical properties. [ABSTRACT FROM AUTHOR]

Details

Language :
Chinese
ISSN :
20954344
Volume :
24
Issue :
10
Database :
Academic Search Index
Journal :
Chinese Journal of Tissue Engineering Research / Zhongguo Zuzhi Gongcheng Yanjiu
Publication Type :
Academic Journal
Accession number :
140925745
Full Text :
https://doi.org/10.3969/j.issn.2095-4344.2234