Microstructure and mechanical properties of Nano-ZrO2/platinum composite

Ying Xu; Guiying Du; Mingli Li; Lijuan Jiang; Hejun Li

Microstructure and mechanical properties of Nano-ZrO₂/platinum composite

Ying Xu, Guiying Du, Mingli Li, Lijuan Jiang, Hejun Li

School of Materials Sience and Engineering

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

The precipitate of colloidal zirconia and ammonium chloroplatinate mixed sufficiently was sintered at high temperature, and then the sample was prepared by rolling and drawing. The fracture morphology and microstructure of the samples were observed by metallograph, SEM, and HREM. The results show that the nano-ZrO₂/Pt grain was refined and its fracture was obviously different from that of pure platinum. The platinum atomic arrangement around the nano-ZrO₂ particle was dislocated, which results in great change of the mechanical propereties. The tensile strength of the nano-ZrO₂/Pt is 470 MPa at room temperature, 15 MPa at 1400°C, elongation is 20% in annealed condition and Vickers hardness is 940 MPa which is 3.6, 10, 0.5 and 2.3 times, respectively, as compared with that of pure platinum.

Original language	English
Pages (from-to)	1080-1083
Number of pages	4
Journal	Xiyou Jinshu Cailiao Yu Gongcheng/Rare Metal Materials and Engineering
Volume	33
Issue number	10
State	Published - Oct 2004

Keywords

Microstructure
Nano-ZrO
Platinum

Cite this

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abstract = "The precipitate of colloidal zirconia and ammonium chloroplatinate mixed sufficiently was sintered at high temperature, and then the sample was prepared by rolling and drawing. The fracture morphology and microstructure of the samples were observed by metallograph, SEM, and HREM. The results show that the nano-ZrO2/Pt grain was refined and its fracture was obviously different from that of pure platinum. The platinum atomic arrangement around the nano-ZrO2 particle was dislocated, which results in great change of the mechanical propereties. The tensile strength of the nano-ZrO2/Pt is 470 MPa at room temperature, 15 MPa at 1400°C, elongation is 20% in annealed condition and Vickers hardness is 940 MPa which is 3.6, 10, 0.5 and 2.3 times, respectively, as compared with that of pure platinum.",

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T1 - Microstructure and mechanical properties of Nano-ZrO2/platinum composite

AU - Xu, Ying

AU - Du, Guiying

AU - Li, Mingli

AU - Jiang, Lijuan

AU - Li, Hejun

PY - 2004/10

Y1 - 2004/10

N2 - The precipitate of colloidal zirconia and ammonium chloroplatinate mixed sufficiently was sintered at high temperature, and then the sample was prepared by rolling and drawing. The fracture morphology and microstructure of the samples were observed by metallograph, SEM, and HREM. The results show that the nano-ZrO2/Pt grain was refined and its fracture was obviously different from that of pure platinum. The platinum atomic arrangement around the nano-ZrO2 particle was dislocated, which results in great change of the mechanical propereties. The tensile strength of the nano-ZrO2/Pt is 470 MPa at room temperature, 15 MPa at 1400°C, elongation is 20% in annealed condition and Vickers hardness is 940 MPa which is 3.6, 10, 0.5 and 2.3 times, respectively, as compared with that of pure platinum.

AB - The precipitate of colloidal zirconia and ammonium chloroplatinate mixed sufficiently was sintered at high temperature, and then the sample was prepared by rolling and drawing. The fracture morphology and microstructure of the samples were observed by metallograph, SEM, and HREM. The results show that the nano-ZrO2/Pt grain was refined and its fracture was obviously different from that of pure platinum. The platinum atomic arrangement around the nano-ZrO2 particle was dislocated, which results in great change of the mechanical propereties. The tensile strength of the nano-ZrO2/Pt is 470 MPa at room temperature, 15 MPa at 1400°C, elongation is 20% in annealed condition and Vickers hardness is 940 MPa which is 3.6, 10, 0.5 and 2.3 times, respectively, as compared with that of pure platinum.

KW - Microstructure

KW - Nano-ZrO

KW - Platinum

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ER -

Microstructure and mechanical properties of Nano-ZrO₂/platinum composite

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Keywords

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