Effect of holding pressure on densification and mechanical properties of Cf/Mg composites

X. Wei; L. Qi; L. Ju; W. Tian; X. Hou; H. Li

doi:10.1080/02670836.2016.1242828

Effect of holding pressure on densification and mechanical properties of C_f/Mg composites

X. Wei, L. Qi, L. Ju, W. Tian, X. Hou, H. Li

School of Materials Sience and Engineering

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

4 Scopus citations

Abstract

Carbon fibre reinforced magnesium alloy matrix composites were fabricated by using liquid–solid extrusion directly following vacuum infiltration technique. The experimental results showed that the microstructures of C_f/Mg composites depended on the holding pressure. The porosity was reduced gradually, and the densification was improved obviously, respectively, with the increase of the holding pressure. The densification, hardness and Ultimate tensile strength of C_f/Mg composites were significantly improved as the holding pressure increased in the range of 0.1–15 MPa. The densification was not obvious, but the UTS of the C_f/Mg composites decreased gradually as the holding pressure increased in the range of 25–45 MPa. The C_f/Mg composites presented a good performance when the holding pressure was about 15 MPa.

Original language	English
Pages (from-to)	629-634
Number of pages	6
Journal	Materials Science and Technology
Volume	33
Issue number	5
DOIs	https://doi.org/10.1080/02670836.2016.1242828
State	Published - 24 Mar 2017

Keywords

C/Mg composites
Densification
Holding pressure
Mechanical properties
Microstructure

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10.1080/02670836.2016.1242828

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title = "Effect of holding pressure on densification and mechanical properties of Cf/Mg composites",

abstract = "Carbon fibre reinforced magnesium alloy matrix composites were fabricated by using liquid–solid extrusion directly following vacuum infiltration technique. The experimental results showed that the microstructures of Cf/Mg composites depended on the holding pressure. The porosity was reduced gradually, and the densification was improved obviously, respectively, with the increase of the holding pressure. The densification, hardness and Ultimate tensile strength of Cf/Mg composites were significantly improved as the holding pressure increased in the range of 0.1–15 MPa. The densification was not obvious, but the UTS of the Cf/Mg composites decreased gradually as the holding pressure increased in the range of 25–45 MPa. The Cf/Mg composites presented a good performance when the holding pressure was about 15 MPa.",

keywords = "C/Mg composites, Densification, Holding pressure, Mechanical properties, Microstructure",

author = "X. Wei and L. Qi and L. Ju and W. Tian and X. Hou and H. Li",

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T1 - Effect of holding pressure on densification and mechanical properties of Cf/Mg composites

AU - Wei, X.

AU - Qi, L.

AU - Ju, L.

AU - Tian, W.

AU - Hou, X.

AU - Li, H.

PY - 2017/3/24

Y1 - 2017/3/24

N2 - Carbon fibre reinforced magnesium alloy matrix composites were fabricated by using liquid–solid extrusion directly following vacuum infiltration technique. The experimental results showed that the microstructures of Cf/Mg composites depended on the holding pressure. The porosity was reduced gradually, and the densification was improved obviously, respectively, with the increase of the holding pressure. The densification, hardness and Ultimate tensile strength of Cf/Mg composites were significantly improved as the holding pressure increased in the range of 0.1–15 MPa. The densification was not obvious, but the UTS of the Cf/Mg composites decreased gradually as the holding pressure increased in the range of 25–45 MPa. The Cf/Mg composites presented a good performance when the holding pressure was about 15 MPa.

AB - Carbon fibre reinforced magnesium alloy matrix composites were fabricated by using liquid–solid extrusion directly following vacuum infiltration technique. The experimental results showed that the microstructures of Cf/Mg composites depended on the holding pressure. The porosity was reduced gradually, and the densification was improved obviously, respectively, with the increase of the holding pressure. The densification, hardness and Ultimate tensile strength of Cf/Mg composites were significantly improved as the holding pressure increased in the range of 0.1–15 MPa. The densification was not obvious, but the UTS of the Cf/Mg composites decreased gradually as the holding pressure increased in the range of 25–45 MPa. The Cf/Mg composites presented a good performance when the holding pressure was about 15 MPa.

KW - C/Mg composites

KW - Densification

KW - Holding pressure

KW - Mechanical properties

KW - Microstructure

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Effect of holding pressure on densification and mechanical properties of C_f/Mg composites

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Keywords

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