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Nasim, Mohammad Nur E Alam Al,Chun, Doo-Man Elsevier 2017 Surface & coatings technology Vol.309 No.-
<P><B>Abstract</B></P> <P>This work demonstrates the effect of the substrate upon the deposition of graphite microparticles during thin film preparation at room temperature using a nanoparticle deposition system (NPDS). NPDS is a dry spray deposition method, whereby various metal and ceramic powders can be deposited at room temperature without the use of any binders. Graphite powder was deposited on various substrates of different hardness, namely polystyrene, copper, glass, and sapphire, and the substrate-dependent deposition behaviors were investigated. For the soft polystyrene substrate, graphite particles fragmented into small pieces during deposition, but retained the original graphite crystal structure. For the copper substrate, which is of intermediate hardness, some areas of the deposited film showed fragmented particles that had undergone interlayer separation to yield few-layer graphene flakes, but in other areas of the film a fragmented graphite structure was observed, of particles that did not undergo interlayer separation. In contrast, intense fragmentation and interlayer separation of microscale graphite particles to form small and few-layer graphene flake structures were observed on the hardest substrates, glass and sapphire. The degree of fragmentation and interlayer separation of the microscale graphite particles were substrate-dependent: these phenomena increased as the hardness of the substrate was increased.</P> <P><B>Highlights</B></P> <P> <UL> <LI> Dry spraying of microscale graphite particles on various substrates was performed. </LI> <LI> Substrate-dependent deposition behaviors were observed. </LI> <LI> Fragmentation and interlayer separation were considered as deposition behaviors. </LI> <LI> Graphene structures from the deposited films were observed on hard substrates. </LI> </UL> </P> <P><B>Graphical abstract</B></P> <P>[DISPLAY OMISSION]</P>
Hong, Sung-Tae,Das, Hrishikesh,Oh, Hyun-Seok,Nasim, Mohammad Nur E Alam Al,Chun, Doo-Man Elsevier 2017 CIRP annals ... manufacturing technology Vol.66 No.1
<P><B>Abstract</B></P> <P>A nano-particle deposition system is combined with friction stir spot welding (FSSW) of dissimilar aluminum alloys to fabricate a carbon/aluminum metal matrix composite (MMC) joint. Carbon materials in the form of graphite powder are deposited on an aluminum sheet at room temperature. Lap joints of dissimilar aluminum alloys are fabricated via FSSW using the carbon-deposited aluminum sheet as the upper sheet of the joint. The Raman spectroscopy confirms that carbon/aluminum MMC is successfully fabricated in the joint. The strength and toughness of the joint are clearly enhanced by fabricating the MMC, as shown in the result of mechanical tests.</P>