Dual Damping EWMA를 이용한 효율적인 반도체 공정 제어에 관한 연구

김선억,고효헌,류혜준,김성식 한국경영과학회 2007 한국경영과학회 학술대회논문집 Vol.2007 No.05

한국(韓國)의 광상생성도(鑛床生成圖)

김선억,황덕환,Kim, Seon-Eok,Hwang, Duk-Hwan The Korean Society of Economic and Environmental G 1986 자원환경지질 Vol.19 No.no.spc

필자(筆者)는 1981년(年) 파리, 1983년(年) 마닐라에서 개최되었던 CGMW 회의(會議)에 참석(參席)함을 계기로 세계공통(世界共通)의 제작규약(製作規約)을 준수(遵守)해 가면서 대한지질도(大韓地質圖) 및 한국의 지체구조도(地體構造圖)를 기본도(基本圖)로 하여 그간의 광상조사연구자료중(鑛床調査硏究資料中) 444개(個) 주요대상광상(主要對象鑛床)을 선정(選定), 이들 자료(資料)를 정리종합(整理綜合) 분류(分類)하여 1983년(年)에 한국의 광상생성도(鑛床生成圖)를 발간(發刊)(한국동력자원연구소(韓國動力資源硏究所))한 바 있다. 처음 시도(試圖)된 일이었을 뿐 아니라 대상개개(對象個個) 광상(鑛床)의 정밀조사자료(精密調査資料)가 부족(不足)하여 흡족(洽足)하지 못하였음에 차후(次後) 보다 보완(補完)된 충실(充實)한 내용(內容)의 광상생성도(鑛床生成圖)를 기대(期待)하여 마지 않는다. In order to make preparation of the Metallogenic Map of Korea, the writer have to collect and review the data of general geology and ore deposits of Korea which have been published up to date. The geology of Korea has been briefly simplified and grouped into the 15 formations so as to provide the base geologic map for making the Metallogenic Map of Korea. Geologic provinces of south Korea are divided into four, that is, Gyeonggi·Ryeongnam province, Ogcheon geosynclinal province, Gyeongsang basin province and Tertiary province. In the view of tectonics and related granites, the major orogenies in south Korea are as follows; Ryeongnam orogeny, Taebaeg disturbance, post-Sangweon disturbance, post-Joseon disturbance, Bulgugsa disturbance and Yeonil disturbance. Metallogenic epochs might coincide with the period of syntectonic or subsequent igneous rock intrusions accompanied with the above listed orogenies and disturbances. Thus, metallogenic epochs that are certain in Korea so far are; Precambrian periods, Paleozoic periods, Jurassic to early Cretaceous periods, late Cretaceous to early Tertiary periods, Quaternary periods and age-unknown periods. The Metallogenic Map of Korea shows 444 ore deposits and/or mines by symbols on a background adopted from the existing geologic and tectonic map. The 444 metallic and non-metallic deposits are categorized by the commodities they contain, size, geologic environment, mineralized age and mineralogic nature.

경남지구(慶南地區) 동광상(銅鑛床)의 종합개발(綜合開發)에 관(關)한 조사연구(調査硏究)

김선억,Kim, Sun Uk 대한자원환경지질학회 1973 자원환경지질 Vol.6 No.3

The metamorphosed belt on cherty and andesitic rocks of the Gyeongnam province area has been well known as the most important copper matallogenetic province in Korea and locally has been investigated by several geologists. This report is summarized about geology, occurrence of ore deposits, the study of the present status of mine developments and exploitations and the suggestions of future proposed of copper mine developments and harmoniously and reseonably planning of demands and supply of copper ore. For convenience of study the writer divided the survey region as 4 areas, according to the conditions of mine location. They are (1) Goseong copper area (2) Gunbuk-Haman copper area (3) Masan-Changwon copper area (4) Tongrae-Ilgwang copper area. The geology of the above 4 areas consits of Cretaceous Gyongsang System, which is divided into Silla series, Nakdong Series and Bulguksa Series. The former has intrusive and extrusive andesite and sedimentary formation, and the latter has dioritic and hornblende granite. Ore deposits which is mostly vein types are confined mostly in the andesite and cherty rocks of Silla and Nakdong Series. It is observed slight hydrothermal alteration, i. e. propylitization, chloritization, saussuritization and silicification. It seems that the ore was formed by hydrothermal solution and secondary enrichement. The ore minerals are mainly chalcopyrite and pyrite, with small amounts of malachite, azurite, chalcocite, cuprite, galena, and sphalerite, magnetite, tetrahedrite and etc.. The efficient plan of copper mine developments in surveyed region are as following; (a) Gyeongnam Copper districts are divided in 4 area as mentioned above. (b) Each area would be likely developed as group-working as one unit. For the sufficiently supplying a demand of electric copper, the importations of high grade copper ore in foreign country are invitable at present status of copper mine developments and exploitations.

Dual Damping EWMA를 이용한 효율적인 반도체 공정 제어에 관한 연구

김선억,고효헌,류혜준,김성식 대한산업공학회 2007 대한산업공학회 춘계학술대회논문집 Vol.2007 No.5

페인트용광물 (1)

김선억,장세원 한국광물학회 1989 광물과산업 Vol.2 No.1

물금철산의 광체발달 양상과 그에 따른 탐광계획

김선억,강양평,Kim, Seon Eok,Kang, Yang Pyeong 대한자원환경지질학회 1969 자원환경지질 Vol.2 No.1

The Mulkum mine, located in Mulkum-myon, Yangsan-Kun, Kyeongsang Province, is one of the biggest iron mine in Korea. The geology of this mine and its vicinity consists of Chusan andesitic rocks and Datae-dong andesite porphyry of the Kyeongsang System which were intruded by biotite granite widely distributed near the vicinity of Mulkum-ni. The ore deposits, embedded in Dotae-dong andesite porphyry, are fissure-filling vein type in origin. Up to present ore bodies of Main vein, No. 2 vein, Eastern No. 1, 2 vein and Western No. 1 vein are exploited. Generally the veins strike N 10-25 E and dip to 60-90 SE. The proved length of vein is more than 500 meters and its depth 150 meters in Main vein with 3-4 meters of thickness in average. Ore minerals are mainly magnetite and locally associated with small amounts of hematite, sphecularite and chalcopyrite. Gangue minerals are quartz, epidote, chlorite, pyroxene, and garnet, etc. The modes of occurrence of vein are as follow; 1. Branching and parallel vein patterns are observed around main shaft in -1 level. 2. Multiple cymoid loops and subrectangular vein patterns are observed around main shaft in -2 level. 2. Single vein patterns are observed in -3 and -5 level. The ore-shoots plunge northeasterly about 20-30 degrees. In conclusion, the tectonically fractured zone belongs to the poorly mineralized zone and shoots are formed as single vein type. The general trends of one-shoots must be applied the prospecting of the deep-seated ore body in the deposits.

한국산 철광석의 광물학적 및 지화학적(地化學的) 연구(1)

김선억,소칠섭 고려대학교 공학기술연구소 1971 고려대학교 생산기술연구소 연구보고 Vol.2 No.1

The deposits of iron ore in Korea can be divided into the following five main classes: 1. deposits of magnetite bearing skarn of contact metasomatic origin, 2. deposits of ferruginous sediments subjected to dynamic metamorphism, 3. deposits of hydrothermal replacements and fissure-filling type, 4. deposits formed by magmatic differentiation, 5. residual deposits formed by oxidation and weathering processes. The results of various survey data confirmed that 113, 000, 000 tons of iron ore reserves consisting of 85% low grade ore (Fe: 25-40%) and 15% high grade ore (Fe: over 40io) exist. For the selected I3 iron ore deposits that were considered large potential mine and that may or may not be presently in operation, the geological and mineralogical characteristics have been studied. The total production of these ore deposits was 98% of the total production in 1969. Furthermore suggestions for developing each deposit were proposed. The national production of iron ore in 1968 was 829, 581 tons, which was the largest total production during the last decade. However, the trend of production has been decreasing each year for various reasons: a decrease in the export-price, a gradual exhaustion of the existing high grade ore reserves and an increase in production costs caused by a more difficult mining situation. It should be emphasized that positive action by the Government must be taken to obtain the maximum utilization of domestic iron ore resources and to conserve foreign currency by halting the importation of iron ore necessary for domestic iron-works.

암석 및 광물의 국제표준시료

김선억,성학제,김윤규 한국광물학회 1990 광물과산업 Vol.3 No.2

어래산 지역 희유금속 정광에 대한 광물학 - 전자현미분석기에 의한 광물조성비 분석을 중심으로 -

김선억,정세원,최헌수 한국광물학회 1989 광물과산업 Vol.2 No.2

한국의 금속자원과 그 전망

김선억,Kim, Seon-Eok 한국과학기술단체총연합회 1981 과학과 기술 Vol.14 No.7