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Mining Technology and Mine Management

A Study on the Industrial Structure Upgrading Evolution of Non-ferrous Metal in China

  • Yiling LIU ,
  • Minggui ZHENG
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  • 1.Research Center of Mining Development, Jiangxi University of Science and Technology, Ganzhou 341000, Jiangxi, China
    2.Ganzhou Key Laboratory of Intelligent Finance, Gannan University of Science and Technology, Ganzhou 341000, Jiangxi, China
    3.School of Management, University of Science and Technology of China, Hefei 230026, Anhui, China

Received date: 2022-01-10

  Revised date: 2022-05-05

  Online published: 2022-10-31

Abstract

The non-ferrous metal industry as a strategic and basic raw material has made great progress in the past 30 years for deepening reform and opening-up in China,but it is worth paying attention to the effect of industrial structure upgrading,especially before and after the supply-side reform.To better understand the process and effect of the upgrading of China’s non-ferrous metal industrial structure since the Seventh Five-Year Plan in 1986,based on the data from 1986 to 2019 of non-ferrous metal,this paper used the advanced coefficient,Moore structure change value,annual average change value and upgrade height value of industrial structure to construct a calculation model which reflects the direction,rate and degree of industrial structure upgrading.The industrial structure upgrading evolution of non-ferrous metal were calculated in four stages of output catch-up(1986—2001),rapid scale expansion(2002—2011),transformation and development (2012—2015) and high quality development(2016—2019).The results show that the leading coefficient of mining and processing industry is decreasing in every stage,and the leading coefficient of smelting and pressing industry is increasing.The Moore value of the non-ferrous metal industry is close to 1 in all stages,the vector angle value shows a downward trend in the first three stages,the speed of upgrading slows down,then in the fourth stage increases obviously.The annual variation value of the vector angle is relatively stable in the first three stages,in the fourth stage the growth rate is faster than that in the first three stages.The average annual change value of industrial structure is relatively stable in the first two stages,the transformation and development in the third stage are slow,and after the supply-side reform,the average annual change value in the fourth stage has a new upgrade and remains at a certain level.The elevation value of the mining and processing industry has increased and decreased in various stages,and has been dynamically adjusted.The elevation value of the smelting and pressing industry has maintained a growing trend,and the non-ferrous metal industry has been upgraded more effectively.The conclusions of this paper are as follows:(1)After the supply-side reform,the over development of the non-ferrous metal industry has been effectively restrained,and the non-ferrous metal industry has been upgraded from low value-added to high value-added.(2)Over the past 30 years,the upgrading of the industrial structure of the non-ferrous metal industry has generally been in the process of optimization and upgrading,and the effect of supply-side reform has been remarkable.(3)The front end of the mining and selection industry is undergoing reform and adjustment,and the upgrading degree of the back end of the smelting and processing industry is rising rapidly,and take it to the next level.Research enlightenment:(1)From the direction of industrial upgrading,it is necessary to strengthen the mechanism of market capacity reduction and take effective measures to speed up the transformation and upgrading of smelting and calendering industries,this is significant for backend applications.(2)From the rate of industrial upgrading,adhering to the demand-oriented principle,we should accelerate the replacement of production capacity and the elimination of backward production capacity,raise labor productivity,and enhance the ability of processing enterprises to meet user needs quickly at low cost.We should intensify efforts to develop overseas resources for urgently needed mineral resources,provide more time for domestic supply-side reform.(3)From the perspective of industrial upgrading,we should strengthen scientific and technological innovation,improve the level of intensive processing,improve product quality,scientific and technological content,focus on the process to intelligent,flexible,refined and green.

Cite this article

Yiling LIU , Minggui ZHENG . A Study on the Industrial Structure Upgrading Evolution of Non-ferrous Metal in China[J]. Gold Science and Technology, 2022 , 30(4) : 632 -640 . DOI: 10.11872/j.issn.1005-2518.2022.04.016

References

null Ashida M, Hara J, Nagai K,2010.Introduction:Globalization,value chains and development[J].IDS Bulletin,32(3):1-8.
null Fu Shanna, Liu Ang,2017.The research status and prospects of manufacturing industrial upgrading[J].Scientific Management Research,35(2):47-49.
null Fu Ying,2016.Study on influencing factors of transformation of industrial clusters under the Global Value Chain Upgrading[J].Scientific Management Research,34(3):56-59.
null Gereffi G,1999.International trade and industrial upgrading in the apparel commodity chain[J].Journal of International Economics,48(1):37-70.
null Guo Chaoxian, Liu Yanhong,2018.Review of the development of China’s nonferrous metals industry in the past 40 years of reform and opening up and the way of high quality development in the future[J].Review of Economic Research,(49):3-13.
null Guo Xiaobei,2019.The impact research of environmental regulations on the structural upgrading of manufacturing industry—Analysis on path and panel data model[J].Inquiry into Economic Issues,(8):148-158.
null Kaldor N,1961.Capital Accumulation and Economic Growth[M]//Lutz F A,Hague D C.The Theory of Capital.New York:St.Martin’s Press: 177-222.
null Kaplinsky R, Morris M,2000.A Handbook for Value Chain Research[M].Brighton:University of Sussex,Institute of Development Studies:25- 40.
null Kuznets S,1973.Modern economic growth:Findings and reflections[J].The American Economic Review,63(3):247-258.
null Li Hui, Ping Fangfang,2017.Measurement on industrial structure upgrade of China’s equipment manufacturing industry[J].Forum on Science and Technology in China,(2):80-86.
null Li Yujia, Liu Xiaobing,2019.Study on the linkage and structural upgrading of forestry industry in Beijing[J].Problems of Forestry Economics,39(2):218-224.
null Liu Wei, Zhang Hui, Huang Zehua,2008.A study of industrial structure degree,industrialization process and regional difference in China[J].Economic Perspectives,(11):4-8.
null Liu Yiling, Zheng Minggui,2021.Evaluation of upgrading effect of ferrous and non-ferrous metal mining industry structure based on the structural reform of supply-side[J].China Mining Magazine,30(3):52-60.
null Liu Zhaoshun, Shang Jincheng,2006.Analysis and adjustment of mining industry structure in Jilin Province [J].Mining Tesearch and Development,(1):1-6.
null Liu Zhibiao, An Tongliang,2002.China’s industrial structural evalution and economic increase[J].Social Sciences Nanjing,(1):1-4.
null Ma Hongfu, Hao Shouyi,2017.The measurement of industrial transformation and upgrading level and its influence on labor productivity—Taking 26 cities in the middle reaches of Yangtze River as an example[J].Economic Geography,37(10):116-125.
null Miller M H,1998.The modigliani-miller propositions after thirty years[J].Journal of Economic Perspectives,2(4):99-120.
null Myers S C,1984.The capital structure puzzle[J].Journal of Finance,39(3):574-592.
null Shin R W, Ho A,1997.Industrial transformation:Interactive decision-making process in creating a global industry (Korea’s Electronics Industry)[J].Public Administration Quarterly,21(2):143-175.
null Sinding K,2009.Consolidation,fragmentation and the structure of the mining industry[J].Journal of the South African Institute of Mining and Metallurgy,109(3):187-190.
null Tan Jingrong, Yan Minxia, Deng Qiang,et al,2012.Measurement of the level of industrial upgrading and the assessment of affecting factors of labor productivity—A case study of 16 cities in Yangtze River Delta Region[J].Journal of Business Economics,(5):72-81.
null Teece D J, Pisano G P, Shuen A,et al,1997.Dynamic capabilities and strategic management[J].Strategic Management Journal,18(7):509-533.
null Tommelein I D,1998.Pull-driven scheduling for pipe-spool installation:Simulation of lean construction technique[J].Journal of Construction Engineering and Management,124(4):279-288.
null Tommelein I D, Weissenberger M,1999.More just-in-time:Location of buffers in structural steel supply and construction Processes[C]//Proceedings of 7th Conference of the International Group for Lean Construction.Berkeley:University of California.
null Wang Keling, Yao Jianwen, Jiang Shaoping,2009.Research on sustainable development of non-fetus metals industry of Yunnan Province based on the perspective of industry chain[J].Inquiry into Economic Issues,(5):59-64.
null Wang Lang, Sha Jinghua,2013.Dynamic shift share analysis on industrial structure of Inner Mongolia’s mining industry [J].Mining Research and Development,33(2):128-132.
null Wu Chongbo,1988.On the industrial upgrading of ASEAN countries[J].Asia-Pacific Economic Review,(1):26-30.
null Wu Wenjie, Wang Xiaojuan, He Yantao,2018.A study on the influence of industrial structure evolution on the total factor energy efficiency[J].Ecological Economy,34(4):119-124.
null Yuan Xiaofeng, Gui Weihua, Chen Xiaofang,et al,2018.Transforming and upgrading nonferrous metal industry with artificial intelligence[J].Engineering Science,20(4):59-65.
null Zheng Minggui, Xie Yingliang,2012.Overall economic benefit assessment on China’s nonferrous metal industry based on DEA model[J].China Mining Magazine,19(2):33-36.
null 符瑛,2016.全球价值链视角下我国产业集群转型升级影响因素研究[J].科学管理研究,34(3):56-59.
null 付珊娜,刘昂,2017.制造业产业升级的研究回顾与展望[J].科学管理研究,35(2):47-49.
null 郭朝先,刘艳红,2018.改革开放四十年我国有色金属工业发展回顾与未来高质量发展之路[J].经济研究参考,(49):3-13.
null 郭晓蓓,2019.环境规制对制造业结构升级的影响研究——基于路径分析与面板数据模型检验[J].经济问题探索,(8):148-158.
null 李慧,平芳芳,2017.装备制造业产业结构升级程度测量[J].中国科技论坛,(2):80-86.
null 李宇佳,刘笑冰,2019.北京市林业产业关联和结构升级研究[J].林业经济问题,39(2):218-224.
null 刘伟,张辉,黄泽华,2008.中国产业结构高度与工业化进程和地区差异的考察[J].经济学动态,(11):4-8.
null 刘贻玲,郑明贵,2021.基于供给侧结构性改革的黑色和有色金属矿业产业结构升级效果评价[J].中国矿业,30(3):52-60.
null 刘兆顺,尚金城,2006.吉林省矿业产业结构分析与产业结构调整[J].矿业研究与开发,(1):1-6.
null 刘志彪,安同良,2002.中国产业结构演变与经济增长[J].南京社会科学,(1):1-4.
null 马洪福,郝寿义,2017.产业转型升级水平测度及其对劳动生产率的影响——以长江中游城市群26个城市为例[J].经济地理,37(10):116-125.
null 谭晶荣,颜敏霞,邓强,等,2012.产业转型升级水平测度及劳动生产效率影响因素估测——以长三角地区16个城市为例[J].商业经济与管理,(5):72-81.
null 王克岭,姚建文,蒋绍平,2009.产业链视角的云南有色金属产业可持续发展研究[J].经济问题探索,(5):59-64.
null 王朗,沙景华,2013.内蒙古矿业产业结构动态偏离份额分析[J].矿业研究与开发,33(2):128-132.
null 吴崇伯,1988.论东盟国家的产业升级[J].亚太经济,(1):26-30.
null 吴文洁,王晓娟,何艳桃,2018.产业结构变迁对全要素能源效率的影响研究[J].生态经济,34(4):119-124.
null 袁小锋,桂卫华,陈晓方,等,2018.人工智能助力有色金属工业转型升级[J].中国工程科学,20(4):59-65.
null 郑明贵,谢英亮,2012.基于DEA模型的我国有色金属工业总体经济效益评价[J].中国矿业,19(2):33-36.
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