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有色金属晚期矿山的资产分析
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作者 贺灿星 《财务与金融》 1999年第6期52-53,共2页
关键词 晚期矿山 有色金属 固定资产结构 黄沙坪 铅锌矿 应收账款 盘活资产 流动资产 矿山 所有者权益
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晚期矿山盘活存量资产的思考
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作者 程钧 《湖南有色金属》 CAS 2000年第5期45-47,共3页
有针对性的分析晚期矿山存量资产的现状,提出盘活存量资产的意义、内容及方法。
关键词 晚期矿山 盘活 存量资产 固定资产 无形资产
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晚期矿山资金困难的原因及其对策
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作者 刘成美 《湖南有色金属》 CAS 1998年第6期57-59,共3页
介绍造成我国目前的晚期矿山资金困难的原因和企业内部解决资金困难的对策。
关键词 晚期矿山 资金 经营管理
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分立重组:晚期矿山脱困的有效途径
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作者 程均 《经贸导刊》 1999年第9期42-43,共2页
有矿山的读者来电话,希望刊登一些矿山如何走出困境方面的文章,为此,本刊特编发了此文,请程均同志与同业交流。
关键词 晚期矿山 有效途 走出困境的对策 融资渠道 替代产业 效能监察 生产规模 资源枯竭 矿山闭坑 综合生产能力
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试论中晚期国有矿山的生存与发展 被引量:1
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作者 谢英亮 段科锋 《中国钨业》 CAS 2003年第3期3-5,共3页
分析了中晚期国有矿山的困境及其产生的原因 ,提出了中晚期国有矿山走出困境的基本思路 。
关键词 矿业政策 储量 品位 晚期国有矿山 经济效益 生产经营 企业管理 技术进步
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资源枯竭的国有大型矿山企业出路何在──对中国有色工业总公司桃林铅锌矿的调查
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作者 丛守武 《湖南经济》 1997年第1期42-44,共3页
关键词 资源枯竭 铅锌矿 企业出路 大型矿山 有色工业 晚期矿山 国家国有资产管理局 总公司 社会保障制度 矿产资源
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现金流量法在采矿权评估中出现的一种失真现象及其解决方案
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作者 韩东杰 《资源与产业》 2007年第5期119-121,共3页
在采矿权评估中,运用现金流量法评估中晚期生产矿山采矿权价值时可能会产生一种失真现象。本文分析了这种失真现象,剖析了其本质,提出了具体评估实务中的解决方案。
关键词 采矿权评估 现金流量法 晚期生产矿山 失真现象
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Petrogenetic contrastive studies on the Mesozoic early stage ore-bearing and late stage ore-barren granites from the southern Anhui Province 被引量:9
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作者 YAN Jun HOU TianJie +6 位作者 WANG AiGuo WANG DeEn ZHANG DingYuan WENG WangFei LIU JianMin LIU XiaoQiang LI QuanZhong 《Science China Earth Sciences》 SCIE EI CAS CSCD 2017年第11期1920-1941,共22页
Yanshanian magmatisms are intensive in the southern Anhui Province and can be divided into early (152-137 Ma) and late (136-122 Ma) stages. A Yanshanian granitic zone was found to crop out along Qingshan to Changg... Yanshanian magmatisms are intensive in the southern Anhui Province and can be divided into early (152-137 Ma) and late (136-122 Ma) stages. A Yanshanian granitic zone was found to crop out along Qingshan to Changgai areas in the Ttmxi district in Field investigation which has a genetic link with molybdenum multiple metal mineralization. To be a representative syenitic granite in the southern Anhui Province, the Huangshan pluton has not been found so far to have any genetic link with mineralization. Zircon LA-ICP-MS dating indicate that the four granitic bodies from the Qingshan-Changgai zone have concurrent formed ages from 140~:4 to 141~2 Ma, belonging to the Yanshanian early stage magmatism. However, the Huangshan granite is dated to be 12912 Ma, belonging to the Yanshanian late stage magmatism. The Qingshan-Changgai granites show high SiO2 and K20 contents, low P205 contents and middle A12O3 contents and are high-K calc-alkaline series metaluminum I-type granite. These rocks are characterized by enrichments in the large ion lithophile elements and light rare earth elements (REE), depletions in the high field-strength elements, and middle degree negative anomalies of Eu, geochemical features of arc or continent crustal derived magma affinities. These rocks have 87Sr/StSr(t) ratios from 0.7120 to 0.7125,εNd(t) values from -7.24 to -4.38 and zircon εHf(t) values of -4.4 to 6.7, similar to that of the coeval ore-bearing granodiorites in the southern Anhui Province. Integrated geochemical studies indicate that the Yanshanian ore-bearing granodiorites were formed by partial melting of the Meso-Neoproterozoic accreted thickened low crust. Meanwhile, the Qingshan-Changgai granites were formed through a AFC process of plagioclase+amphibole+Shangxi Group of magmas that formed the ore-bearing granodiorites. The Huangshan granites are characterized by high SiOz and K2O contents, moderate Al2O3 contents, seagull shape REE distributed pattern and distinct Eu negative abnormities. Comparing with the Qingshan-Changgai granites, the Huangshan granites show more Ba, Sr, P, and Ti negative abnormities with no Nb and Ta depletions and are high-K calc-alkaline series metaluminum A-type granite, εHr(t) values of the Huangshan granites are from -6.6 to -1.2, similar to that of the early stage ore-bearing granodiorites, indicating that they were also formed by anatexis of the Meso-Neoproterozoic accreted crust, but their magma sources might be residual granulitic crust which ever underwent Yanshanian early stage I-type intermediate-acid magma extraction. Comparing studies on the two stages granites indicate that the early stage granites derived from a relative thickened low crust under a lower temperature condition. Their magma sources were Meso-Neoproterozoic accreted crust which enriched in ore-forming materials and further became more enriched through processes of magma AFC evolution. However, the late stage A-type granites originated from relative shallow crust under a higher temperature condition. Their magma source was depleted in ore-forming materials due to the early stage magma extraction and thus had weak ore-forming capacity. From early to late stage, the magmatisms tectonic setting translated from post-orogenic to anorogenic and the later corresponded to a back-arc extensional setting as increase of the slab subducted angle of the Paleo-Pacific plate. 展开更多
关键词 YANSHANIAN Granite Low crust Ore-bearing magmatic rock The south Anhui Province Jiangnan orogenic belt
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