The Impact of Sinter and Thermoprint on Film Formation of nanoTiO2 Slurry

Jun Qian; Man Liu; Yi Hua Zhou; Tao Lin Ma; Zi Qiang Zhu; Hong Lin He

doi:10.4028/www.scientific.net/AMR.881-883.1431

Paper Titles

J-Integral and Plastic Limit Load of Hole-Edge Crack in Plate under Biaxial Loadings
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Finite Element Analysis of Rolling Process for Pilger Mill
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Surface Modification of Magnesium Hydroxide by A-174 Silane
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The Impact of Sinter and Thermoprint on Film Formation of nanoTiO2 Slurry
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 881-883The Impact of Sinter and Thermoprint on Film...

The Impact of Sinter and Thermoprint on Film Formation of nanoTiO2 Slurry

Abstract:

nanoTiO2 is one of the most important inorganic pigments in many different fields. The effect of sinter and thermoprint on film-forming properties of nanoTiO2 in screen printing were studied in this paper. Compared with sintering, Thermoprint uses high temperature and pressure to make nanoparticles more tight. By scanning electron microscopy (SEM), X-ray diffraction (XRD) and Coating Adhesion Test, the better film-formation properties of thermoprint are demonstrated.

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Periodical:

Advanced Materials Research (Volumes 881-883)

Pages:

1431-1434

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.881-883.1431

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Online since:

January 2014

Authors:

Jun Qian, Man Liu, Yi Hua Zhou*, Tao Lin Ma, Zi Qiang Zhu, Hong Lin He

Keywords:

Film-Forming Properties, Nano-TiO₂, Sinter, Thermoprint

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References

[1] Arias A C, Mackenzie J D, McCulloch I, et al. Materials and applications for large area electronics: solution-based approaches[J]. Chemical reviews, 2010, 110(1): 3-24.

DOI: 10.1021/cr900150b

Google Scholar

[2] Perelaer J, Smith P J, Mager D, and et al. Printed electronics: the challenges involved in printing devices, interconnects, and contacts based on inorganic materials [J]. Journal of Materials Chemistry, 2010, 20(39): 8446-8453.

DOI: 10.1039/c0jm00264j

Google Scholar

[3] Harano A, Shimada K, Okubo T, et al. Crystal phases of TiO2 ultrafine particles prepared by laser ablation of solid rods [J]. Journal of Nanoparticle Research, 2002, 4(3): 215-219.

Google Scholar

[4] Yoshida M, Prasad P N. Sol-gel-processed SiO2/TiO2/poly (vinylpyrrolidone) composite materials for optical waveguides [J]. Chemistry of materials, 1996, 8(1): 235-241.

DOI: 10.1021/cm950331o

Google Scholar

[5] Xu Xiaofeng . nano titanium dioxide photocatalyst Preparation and cotton fabric UV Finishing [D] Donghua University, (2008).

Google Scholar

[6] Lü C, Cui Z, Guan C, et al. Research on preparation, structure and properties of TiO2/polythiourethane hybrid optical films with high refractive index[J]. Macromolecular Materials and Engineering, 2003, 288(9): 717-723.

DOI: 10.1002/mame.200300067

Google Scholar

[7] Pichot F, Pitts J R, Gregg B A. Low-temperature sintering of TiO2 colloids: application to flexible dye-sensitized solar cells [J]. Langmuir, 2000, 16(13): 5626-5630.

DOI: 10.1021/la000095i

Google Scholar

[8] Available: http: /china. nikeibp. com. cn/news/mobi/23095-20080520113. html.

Google Scholar

[9] GB/T 5210-1985, coating adhesion test - start method.

Google Scholar