Jiran Li scite author profile

Jiran Li

2Publications

54Citation Statements Received

77Citation Statements Given

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University of Birmingham

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Electrochemical codeposition of graphene platelets and nickel for improved corrosion resistant properties

Jiang

Liu

2014

RSC Adv.

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A study on graphene platelet (GPL)/nickel (Ni) composites was carried out to evaluate the potential of the new coating materials for corrosion resistance applications. Electrochemical deposition of Ni and GPL/Ni coatings on mild steel was performed in electrolytes with concentrations of 0, 0.1 and 0.2 g L À1 GPLs.Microstructures of the deposited coatings were examined using X-ray diffraction (XRD) and scanning electron microscopy. A Raman microscope was used to characterize the GPLs in the GPL/Ni composite coatings. Average grain sizes of composite coatings estimated from XRD were compared with that of pure Ni coating. Corrosion resistant properties of the coatings were examined by electrochemical corrosion tests. It is found that GPLs are well dispersed in the Ni matrix and agglomeration of GPLs occurs during the deposition process. The introduction of GPLs results in a significant refinement of the microstructure of the Ni matrix and a decrease of the texture coefficient of the Ni matrix at the preferred orientation. GPL/Ni composite coatings exhibit better corrosion resistance and higher microhardness than the pure Ni coating. In addition, considerable improvements in corrosion resistance and microhardness can be achieved by introducing a relatively higher content of GPLs. The research results prove a novel approach to construct corrosion resistant coatings using GPLs.

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Spark Plasma Sintering and Characterization of Graphene Platelet/Ceramic Composites

Jiang

Liu

2014

Adv Eng Mater

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This paper reports a study on sintering and characterization of graphene platelet (GPL)-reinforced ceramic composites. Alumina (Al 2 O 3 ) and zirconia (ZrO 2 ) toughened Al 2 O 3 (ZTA) composites reinforced with GPLs are fabricated, respectively, using spark plasma sintering. The microstructures and mechanical properties of the sintered samples are investigated. It is found that the addition of GPLs hinders the growth of the ceramic matrix grains and help form homogenous microstructures of the ceramic matrices. Agglomeration of GPLs occurs during the fabrication process and formation of GPL aggregates is impeded when ceramic powders of smaller particle size and a shorter milling process are used. Fracture toughness of the ceramic matrices is significantly improved by introducing GPLs. Approximately, a 26.4% and a 29% improvements in fracture toughness are achieved for GPL/Al 2 O 3 and GPL/ZTA composites, respectively. The main toughening mechanisms induced by GPLs are pullout and crack bridging.

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Jiran Li

Electrochemical codeposition of graphene platelets and nickel for improved corrosion resistant properties

Spark Plasma Sintering and Characterization of Graphene Platelet/Ceramic Composites

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