• 자원환경지질
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• 제13권3호
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• pp.167-184
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• 1980

The granitic plutons associated with Ogcheon geosynclinal zone can be grouped into three different subzones; SE-Subzone for the migmatitic and schistose granites of the southeast margin, 101-181m.y. old; NW-Subzone for those of the northwest margin, 112-163m. y. old; and C-Subzone for those of central part of the zone, 63-183m.y. old. The intrusives in C-Subzone are further subdivided into the older, adamellite to granodiorite (148-183m.y. old) and the younger, perthitic granites (63-106m,y. old). The metallogenic distribution of South Korea suggests that, in the Ogcheon Zone, it is possible to delineate an elongated polymetallogenic province in the general orientation of the zone intimately related with the migmatite and plutonic zones mentioned. Moreover, the mineralization in the province was basically controlled by the patterns of local geology involving country rocks and related igneous bodies, that permit subdivision of the province into the following three parts: Northeast (NE) Province consists dominantly of thick Paleozoic calcareous sediments; Middle (M) Province is characterized by predominant argillaceous and partly calcareous sediments of Precambrian to Late Paleozoic age; and Southwest (SW) Province consisting mainly of volcanic and arenaceous sediments of Mesozoic age. The three different plutonic zones with three different country rock provinces above mentioned make a combination which consists of nine classes. Each class can be assumed to be characterized by specific mineralization type. In order to classify the mineralization types, the present study sampled twenty six ore deposits and mineralized areas in Ogcheon zone as shown figure 2; eight ore deposits from plutonic SE-Subzone, ten from the plutonic NE-Subzone and eight from the plutonic C-Subzone. The characteristics of the classes are as follows: NE-SE is predominant in Au-Ag vein and Sn-migmatite of katazonal occurrence; NE-C is most productive in Pb-Zn and remarkable in Fe contact deposit in mesozone and partly Pb-Zn-Cu skarn in limestone and subordinate in mesozone and partly Pb-Zn pipes; M-SE is considerable in Au-Ag vein and rare elements (Nb, Ta, etc.) of pegmatite; M-C is predominant in F-veins in epizone and Mo-W, Fe, Cu veins occur in replacement type; M-NW is productive in Fe metamorphic and skarn types, partly remarkable in Cu, Pb-Zn contact; SW-SE is barren in mineralization related to Jurassic igneous rocks; SW-C is predominant in alunite and pyrophyllite in tuffs; and SW-NW is scarece in Pb-Zn, Cu, As and Au-Ag veins.

• 한국표면공학회지
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• 제47권1호
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• pp.39-47
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• 2014

The peculiar feature of cathodic protection in seawater has the capability to form mineral calcareous deposits such as magnesium and calcium on metal surfaces. It is assumed that $OH^-$ ions are generated close to the metal surface as a result of cathodic protection and generated $OH^-$ ions increases the pH of the metal/seawater interface outlined as the following formulae. (1) $O_2+2H_2O+4e{\rightarrow}4OH^-$, or (2) $2H_2O+2e{\rightarrow}H_2+2OH^-$. And high pH causes precipitation of $Mg(OH)_2$ and $CaCO_3$ in accordance with the following formulae. (1) $Mg^{2+}+2OH^-{\rightarrow}Mg(OH)_2$, (2) $Ca^{2+}+CO{_3}^{2-}{\rightarrow}CaCO_3$. The focus of this study was to increase the amount of $CO{_3}^{2-}$ with the injection of $CO_2$ gas to the solution for accelerating process of the following formulae. (1) $H_2O+CO_2{\rightarrow}H_2CO_3$, (2) $HCO^{3-}{\rightarrow}{H^+}+CO{_3}^{2-}$. Electrodeposit films were formed by an electro-deposition technique on steel substrates in solutions of both natural seawater and natural seawater dissolved $CO_2$ gas with different current densities, over different time periods. The contents of films were investigated by scanning electron microscopy(SEM) and X-ray diffraction(XRD). The adhesion and corrosion resistance of the coating films were evaluated by anodic polarization. From an experimental result, only $CaCO_3$ were found in solution where injected $CO_2$ gas regardless of current density. In case of injecting the $CO_2$ gas, weight gain of electrodeposits films hugely increased and it had appropriate physical properties.

• 한국지구과학회지
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• 제40권2호
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• pp.163-176
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• 2019

멕시코 중부 산 루이스 포토시주의 기반암은 상부 고생대 변성암으로 구성되어있으며, 산 루이스 포토시주의 북동쪽에 위치한 시에라 데 카토르세 중심부에 노출되어있다. 고생대 기반암을 부정합으로 덮고 있는 퇴적층은 상부 쥬라기 해성층으로 구성되며, 자카테카스층과 상부 트라이아스기 육성 우이자찰층의 적색층준과 일치한다. 이들 층은 쥬라기 라 호야 적색층 또는 상부 쥬라기 해성층에 의해 부정합으로 덮혀있다. 산 루이스 포토시주에서, 이 층위에는 백악기 석회질 해성층이 정합으로 놓여있다. 신생대층들은 상기한 암석들중 일부를 부정합으로 덮고 있으며, 해성 쇄설암뿐만아니라 미분화된 화산암들로 구성된다. 현존하는 관입 화성암들은 산성 내지 중성 조성이며 변성 기반암 및 퇴적암을 관입한다. 플라이스토세에 증발성 퇴적물을 수반한 역암들이 퇴적되었다. 제4기 지질은 현무암류, 산록퇴적물, 충적층, 증발암 및 염류 피각층으로 구성되어있다. 산 루이스 포토시 주에는, 매우 다양한 금속 및 비금속 광상유형이 알려져있다. 이들 광상의 모암은 매우 다양하며 고생대부터 제3기까지를 구성하는 층들을 포함한다. 광화연령은 약 75%가 제3기이며 주로 후생성 광상이다. 결론적으로, 멕시코 산 루이스 포토시주의 지질-자원 정보는 향후 국내기업이 멕시코의 광업분야 진출시 금속 및 비금속 광화대 부존지 예측 및 유망광화대 선정에 활용될 것으로 판단된다.