著者
赤岩 英夫 田島 栄作 相沢 省一
出版者
日本地球化学会
雑誌
地球化学 (ISSN:03864073)
巻号頁・発行日
vol.12, no.1, pp.1-4, 1978

The bromine and iodine contents were determined simultaneously by neutron activation analysis on two boreholes of the Tertiary marine siltstones and marine tuffs collected from Tomioka, southwestern Gunma Prefecture, and the relationship between these elemental contents and the organic carbon content was investigated. The arithmetic means of the bromine and iodine contents of siltstone samples were 1.9ppm and 2.0ppm, respectively. Tuff samples gave averages of 0.69ppm for the bromine content and 0.75ppm for the iodine content. The positive correlations were observed between the halogen contents and the organic carbon content of the sedimentary rocks analyzed. This suggests that the bromine and iodine in the sedimentary rocks originate from marine plants and microorganisms incorporated during sedimentary processes.
著者
田島 栄 森 健実 小宮 衛
出版者
Japan Society of Corrosion Engineering
雑誌
防蝕技術 (ISSN:00109355)
巻号頁・発行日
vol.14, no.3, pp.109-117, 1965-03-15 (Released:2009-11-25)
参考文献数
12

Contact corrosion of couples of aluminum-mild steel, aluminum-stainless steel, anodized aluminummild steel, and anodized aluminum-stainless steel was studied. Corrosion current, weight loss, polarization measurement and salt spray test were carried out on these couples in various inorganic corrosive media: 1N NaCl, 0.1N NaCl, 1N CaCl2, 0.1N CaCl2, 1N Na2SO4, satd. Ca(OH)2 (pH=12.5), 0.38N Na2CO3, 0.5N Na2CO3, 0.1N NaCl, 0.069N NH4OH, 0.09N H2SO4, 0.1N HCl.Under various experimental conditions, both aluminum and anodized aluminum were in general less noble than mild steel and stainless steel except in sodium sulfate and sulfuric acid solutions, in which mild steel was anodic against aluminum and anodized aluminum.In most of the experimental conditions, aluminum and anodized aluminum sacrificially protected mild steel and stainless steel from corrosion completely. Weight loss of aluminum was, however, much greater than that of anodized aluminum. Corrosion current by the aluminum-mild steel and aluminum-stainless steel couples in alkaline solutions was about ten to one hundred times larger than in neutral solutions, while, in the case of anodized aluminum-mild steel and anodized aluminum-stainless steel couples, except in neutral and acidic solutions containing Cl ion, only a small corrosion current was measured.