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http://dx.doi.org/10.9766/KIMST.2021.24.2.197

Experimental Study on the Improvement of Surface Treatment of Mechanical Structures in Field Environment  

Kim, Jongwha (Department of Science and Technology Studies, Korea University)
Hyun, Jonghun (PGM Production Technical Lab, LIG Nex1 Co. Ltd.)
Kang, Seokjoong (Graduate School of Management of Technology, Korea University)
Publication Information
Journal of the Korea Institute of Military Science and Technology / v.24, no.2, 2021 , pp. 197-203 More about this Journal
Abstract
Mechanical structures of military equipment have been mainly applied with black oxide coating due to the limitation of surface treatment thickness. However, the mechanical structures applied by the black oxide coating treatment is constantly being corroded by calcium chloride and humidity. Since this can cause serious problems in the operation of equipment, a review to improve surface treatment and corrosion resistance is required. Therefore, in this study, surface treatment methods that can enhance corrosion resistance were selected and corrosion resistance performance was verified through experiments describing harsh field conditions. Thus, applying a proven surface treatment method to future military equipment will prevent corrosion.
Keywords
Corrosion Resistance; Surface Treatment; Plating; Field Environment;
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  • Reference
1 KDS 0115-0023 6.1, Black Oxide Coating.
2 KDS 1427-4009, Defense Standard Guided Weapon System for Ground Attack, AT-1K.
3 KSD 8330, Domestic Standard for Electrolytic Tin Plating, 2017.
4 M. G. Fontana, "Corrosion Engineering," 3rd Edition, McGraw Hill, New York, 1986.
5 K. Jung, et. al., "Investigation on Localized Corrosion of Stainless Steel by Experimental Design," KISE Annual Conference, pp. 129-129, June, 2020.
6 J. Park, "Heavy Metal Poisoning," Hanyang Medical Reviews, Vol. 30, No. 4, pp. 319-325, 2010.   DOI
7 KSD 9502, Domestic Standard for Salt Spray Test, 2019.
8 Mil-STD-810G-507.6, Military Standards 810G Humidity, 2008.
9 HAIDA International (2018), "Programmable Thermal Shock Test Chamber," https://www.hdtestchamber.com/product/Programmable-thermal-shock-test-chamber.html (accessed Jan 2, 2021).
10 Mil-STD-810G-509.6, Military Standards 810G Salt Fog, 2008.
11 ASTM International, "Standard Practice for Modified Salt Spray(Fog) Testing," Annual Book of ASTM Standards, 2011.
12 J. Kim, et. al., "Experimental Study on the Improvement of Corrosion Resistance of Mechanical Structures in Field Environment" KIMST Annual Conference Proceedings, No. 76, pp. 153-154, Nov, 2020.