Scratch Hatch and Nanoscratch Evaluation of Silicone-Dammar Coating as Soft Coating Resin Materials

Rosnah Zakaria; Azizah Hanom Ahmad

doi:10.4028/www.scientific.net/MSF.846.702

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HomeMaterials Science ForumMaterials Science Forum Vol. 846Scratch Hatch and Nanoscratch Evaluation of...

Scratch Hatch and Nanoscratch Evaluation of Silicone-Dammar Coating as Soft Coating Resin Materials

Abstract:

Viscosity and rheological investigation are preliminary investigation to identify the mixture behaviour. The investigation found that SD mixtures behave like pseudoplastic behaviour and this showed that the mixture is the right solution to be a paint mixture. Scratch hatch is a conventional method to measure the adhesion of dried coating. SD15, SD10 and SD5 were showed the smooth edges of the cut. However, nanoscratch test is a high technology method measure the minimum depth of penetration on SD40 followed by SD25, SD15 and SD5. This showed that the SD40 is the hardest coating film. As for all adhesion performance, SD15 becoming the best coating film with medium standard evaluation.

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Materials Science Forum (Volume 846)

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702-705

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.846.702

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March 2016

Authors:

Rosnah Zakaria, Azizah Hanom Ahmad

Keywords:

Cross Hatch Test, Nanoscratch Test, Rheology, Viscosity

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References

[1] Gerald L. Witucki, The Evolution of silicon-based technology in coatings, AETS industry Specialist, Dow Corning Corporation (2000).

Google Scholar

[2] Higgins, J. S, Gagliardi, S. Arrighi, V., Ferguson,R. Dagger A.C. On the difference in scattering behavior of cyclic and linear polymers in bulk,., Jurnal of Chemical Physics. (2005).

DOI: 10.1063/1.1849162

Google Scholar

[3] Ta- Sen Lin et al, Enhancement of water-repellent performance on functional coating by using the Taguchi method, Surface & Coating Technology 200, 5253 – 5258 (2006).

DOI: 10.1016/j.surfcoat.2005.06.019

Google Scholar

[4] Zakaria, R and A.H. Ahmad, Adhesion and Hardness Evaluation of Modified Silicone-Dammar as Natural Coating Materials, American Journal of Applied Science 9 (6): 890-893, (2012).

DOI: 10.3844/ajassp.2012.890.893

Google Scholar

[5] Zakaria, R and A.H. Ahmad, The Influence of Dammar Resin as a Natural Resin on Corrosion Protection in Silicone Coatings, AIP Conf. Proceedings vol. 1250, p.345–347, December (2009).

DOI: 10.1063/1.3469675

Google Scholar

[6] Nemeth, S. Modeling the Scratch Resistance of Particle Filled Sol-Gel Coating on Aluminium, Thin Solid Film, 516, 5355-5359, (2008).

DOI: 10.1016/j.tsf.2007.07.044

Google Scholar

[7] Peter Betz and Angelika Bartelt Scratch Resistance Clear Coat: Development of New Testing Methods for Improved Coating, Progress in Organic Coating 22, 27-37, (1993).

DOI: 10.1016/0033-0655(93)80013-z

Google Scholar