Preparation and Interface Analysis of Metal and Ceramic
Composites
Volume 4 - Issue 5
ZhiJin Guo1, Yan Zhang1*, Jian Ping Zhou1, Da Qian Sun2 and Hong Mei Li2
- 1School of Mechanical Engineering, Xinjiang University, Wulumuqi 830000, China
- 2Key Laboratory of Automobile Materials, School of Materials Science and Engineering, Jilin University, Changchun 130022, China
Received: October 22, 2021; Published: October 28, 2021
*Corresponding author: Yan Zhang, School of Mechanical Engineering, Xinjiang University, Wulumuqi 830000, China
DOI: 10.32474/MAMS.2021.04.000197
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Abstract
The performance of single material has been difficult to meet
the increasingly complex working conditions due to its own
limitations, so the composite material is applied. The composite
structure of heterogeneous materials not only has the advantages
of various materials, but also can be used normally even under
extremely harsh working conditions. At the same time, it can also
replace the use of scarce materials to a certain extent and reduce
costs, which has a very broad application prospect [1,2]. Such as
ceramic, protonic ceramic fuel cells can directly use both hydrogen
and hydrocarbon fuels to produce electricity at potentially more
than 50 per cent efficiency [3,4]. Ceramics are also applied and
reported as restorative materials for treatment of severe tooth
wear and bearing was introduced in total hip arthroplasty due to
its properties of high-wear resistance and biocompatibility were
superior to those of the alloys and polymers [5-7]. Metal materials
generally refer to pure metals or alloys in industrial applications,
which have some characteristics such as crystal structure, gloss,
electrical conductivity, good thermal conductivity and ductility in
solid state. For example, stainless steel and iron based stainless steel
Alloy materials are wear-resistant, high intensity and corrosionresistant
materials. They can be used in the protection of nuclear
reactors, architecture field, west-east natural gas, and so on [8,9].
Titanium and its alloys with high specific strength, high temperature
resistance, low temperature resistance, strong damping resistance
and good corrosion resistance have been widely used in aerospace,
ocean shipping, petrochemical, medical and other fields [10,11].
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