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Please use this identifier to cite or link to this item: http://ntour.ntou.edu.tw:8080/ir/handle/987654321/12275

Title: 鋼結構奈米材料防蝕性能之研究
Corrosion Protection of Nano Material for Steel Structure
Authors: 黃然
Contributors: NTOU:Department of Harbor and River Engineering
國立臺灣海洋大學:河海工程學系
Date: 2009-08
Issue Date: 2011-06-29T01:38:54Z
Publisher: 行政院國家科學委員會
Abstract: 摘要:鋼試片製表面塗覆摻入具有光催化作用的納米TiO2氟碳塗層,通過對納米TiO2細微性、固含量的研究,確定最佳光催化效果的配比。 針對TiO2確認配比加入CTFE與PTFE系列的FEVE氟碳樹脂做表面外觀評估與腐蝕,自潔性能實驗及微觀分析討論。 氟碳樹脂在鋼結構應用上有三個法規,其中AAMA2605針對底材是鋁質之型材的測試,而JIS K5658針對底材是混泥土之型材的測試,以鋼構造物之型材的測試是JIS K5659, 本研究計畫的實驗是以JIS K5659為主再加入AAMA2605的部份耐腐蝕的實驗,在第二年做完整的鋼結構防蝕的評估。
abstract:Because construction convenience, earthquake resistance, long span, high rise, or aesthetic demand, steel structure in Taiwan area have an increasing tendency recently. However Taiwan is the island surrounded by sea water, warm and damp exposure environment would easily corrode steel. How to control and prevent the corrosion becomes an important research topic for steel construction sector. Proper use of coating materials for steel structures subjected to the rainy, subtropical climate exposure is an effective way to control corrosion. Nowaday, the following techniques are normally adopted. They are (1) cathodic control protection by sacrificial metal coatings; (2)anodic control protection by noble metal coatings; (3) electromotive force control protection by noble metal coatings; (4) mixed control protection by conversion coatings; (5) electromotive force control protection by organic/inorganic coatings; and (6) protection by organic/inorganic coatings, in which organic/inorganic corrosion prevention coating application can conform to the multi-purpose corrosion prevention requirement. The newly development of FEVE (Fluoroethylene-Alkyl Vinyl Ether) fluoro-carbon coating as an organic corrosion prevention coating material for steel structures is a promising method for durable corrosion protection. In addition, it is worthy to evaluate the effect of adding nano-TiO2 on anti-dirt or self-cleaning ability of coating materials. The testing program is divided into two-year scheme; first year: literature survey, evaluation of constituent materialsspecimen preparation, determination of mix proportions and working procedure; second year: specimen testings include (1) bond between coating material and steel, impact resistance test, surface glossiness, microscopic surface observation; (2) corrosion behavior evaluations include open circuit potential and corrosion rate under various exposure environments such as artificial salt water and acid solution. Test results would provide civil construction professionals with newly developing information for steel corrosion control, which may improve the durability of steel structures to achieve the sustainable requirement of energy-saving and CO2-reduction for modern society.
Relation: NSC98-2221-E019-051-MY2
URI: http://ntour.ntou.edu.tw/ir/handle/987654321/12275
Appears in Collections:[河海工程學系] 研究計畫

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