Nanocrystalline materials and coatings

Tjong, S.C.; Chen, Haydn

doi:10.1016/j.mser.2004.07.001

Cited by 808 publications

(369 citation statements)

References 445 publications

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“…In particular, nanostuctured coatings are expected to provide several industries with enhanced components leading to better properties and longer lifetime [7][8][9].…”

Section: Introductionmentioning

confidence: 99%

Effect of TiO 2 addition on the microstructure and nanomechanical properties of Al 2 O 3 Suspension Plasma Sprayed coatings

Bannier

Vicent

Rayón

et al. 2014

Applied Surface Science

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Versión / Versió:Preprint were used as starting materials. The coatings microstructure and phase composition were fully characterised using FEG-SEM and XRD techniques. Nanoindentation technique was used to determine the coatings hardness and elastic modulus properties.Results have shown that the addition of titania to alumina SPS coatings causes different crystalline phases and a higher powder melting rate is reached. The higher melted material achieved, when titania is added leads to higher hardness and elastic modulus when the same spraying parameters are used.

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“…In particular, nanostuctured coatings are expected to provide several industries with enhanced components leading to better properties and longer lifetime [7][8][9].…”

Section: Introductionmentioning

confidence: 99%

Effect of TiO 2 addition on the microstructure and nanomechanical properties of Al 2 O 3 Suspension Plasma Sprayed coatings

Bannier

Vicent

Rayón

et al. 2014

Applied Surface Science

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“…Nanostructured materials represent an enhanced version of their conventional counterparts (Ref 1, 2) and usually exhibiting better performances (Ref [3][4][5]. Bulk nanomaterials are being extensively studied but also nanostructured coatings on conventional materials are investigated as they have the potential of providing several industries with novel materials with improved properties and prolonged lifetime .…”

Section: Introductionmentioning

confidence: 99%

Deposition of Al2O3-TiO2 Nanostructured Powders by Atmospheric Plasma Spraying

et al. 2008

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Al 2 O 3 -13%TiO 2 coatings were deposited on stainless steel substrates from conventional and nanostructured powders using atmospheric plasma spraying (APS). A complete characterization of the feedstock confirmed its nanostructured nature. Coating microstructures and phase compositions were characterized using SEM, TEM, and XRD techniques. The microstructure comprised two clearly differentiated regions. One region, completely fused, consisted mainly of nanometer-sized grains of c-Al 2 O 3 with dissolved Ti +4 . The other region, partly fused, retained the microstructure of the starting powder and was principally made up of submicrometer-sized grains of a-Al 2 O 3 , as confirmed by TEM. Coating microhardness as well as tribological behavior were determined. Vickers microhardness values of conventional coatings were in average slightly lower than the values for nanostructured coating. The wear resistance of conventional coatings was shown to be lower than that of nanostructured coatings as a consequence of Ti segregation. A correlation between the final properties, the coating microstructure, and the feedstock characteristics is given.

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“…Compared to the literature concerning nanocrystalline materials, 75,76 similar studies that relate the density and porosity (including pore shapes) to the elastic modulus for sintered Ag joints are lacking. One common technique for characterizing these pores is to consider the ratio of the annular flaw size to the pore radius.…”

Section: Elastic Modulus Of Sintered Agmentioning

confidence: 99%

Are Sintered Silver Joints Ready for Use as Interconnect Material in Microelectronic Packaging?

Siow

2014

Journal of Elec Materi

263

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Silver (Ag) has been under development for use as interconnect material for power electronics packaging since the late 1980s. Despite its long development history, high thermal and electrical conductivities, and lead-free composition, sintered Ag technology has limited market penetration. This review sets out to explore what is required to make this technology more viable. This review also covers the origin of sintered Ag, the different types and application methods of sintered Ag pastes and laminates, and the long-term reliability of sintered Ag joints. Sintered Ag pastes are classified according to whether pressure is required for sintering and further classified according to their filler sizes. This review discusses the main methods of applying Ag pastes/laminates as dieattach materials and the related processing conditions. The long-term reliability of sintered Ag joints depends on the density of the sintered joint, selection of metallization or plating schemes, types of substrates, substrate roughness, formulation of Ag pastes/laminates, joint configurations (i.e., joint thicknesses and die sizes), and testing conditions. This paper identifies four challenges that must be overcome for the proliferation of sintered Ag technology: changes in materials formulation, the successful navigation of the complex patent landscape, the availability of production and inspection equipment, and the health concerns of Ag nanoparticles. This paper is expected to be useful to materials suppliers and semiconductor companies that are considering this technology for their future packages.

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Nanocrystalline materials and coatings

Cited by 808 publications

References 445 publications

Effect of TiO 2 addition on the microstructure and nanomechanical properties of Al 2 O 3 Suspension Plasma Sprayed coatings

Effect of TiO 2 addition on the microstructure and nanomechanical properties of Al 2 O 3 Suspension Plasma Sprayed coatings

Deposition of Al2O3-TiO2 Nanostructured Powders by Atmospheric Plasma Spraying

Are Sintered Silver Joints Ready for Use as Interconnect Material in Microelectronic Packaging?

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