According to this analysis, driven by low mining costs and low environmental protection costs, in the 1990s, Chinese enterprises started mining and exporting rare earth on a large scale. In the past decade, China’s rare earth reserves fell sharply. Its proportion in the global rare earth reserves once exceeded 70% while at the end of 2020, the proportion was only 38%. From 1998 to 2015, the Chinese government introduced an export quota licensing system for rare earth. On Mar. 26, 2014, the WTO ruled that China’s administrative measures for rare earth exports breached WTO rules. On May 1, 2015, the Chinese government canceled its tariffs on rare earth exports. On Jan. 1, 2016, it abolished the export quota licensing system. Before the export quota licensing system was abolished, many Chinese rare earth enterprises had difficulty obtaining export quotas, and smuggling became the main export method. Although the Chinese government rectified this phenomenon many times, it has not been able to completely eliminate this phenomenon.
In China, there is also a total control index system for rare earth ore (rare earth oxide REO) mining. The Rare Earth Mining Index is an enterprise mining index promulgated by the State Council of China, targeting strategic metal resources such as rare earth, tungsten, and molybdenum. In 2020, China's total control indicators for the mining, smelting and separation of rare earth ore (rare earth oxide REO) are 140,000 tons and 135,000 tons respectively. Compared with 2019, mineral products increased by 6.1%, and smelting and separated products increased by 6.3% in 2020.
According to the analyst analysis, the mining and refining of rare earth in China is monopolized by six major state-owned enterprises (SOEs). Non-SOEs only have access to downstream industries such as the production and application of rare earth materials.
At present, the annual production capacity of rare earth separation enterprises in China is about 400,000 tons, and the global annual demand is about 200,000 tons. The international market demand is about 90,000-100,000 tons, and the domestic market demand is about 100,000 tons. China's rare earth dominance in the global market still exists, but its dominant advantage is gradually weakening. With the increase in local mining efforts in the United States, Japan, Australia and other countries, China's rare earth production has fallen from 81.4% in 2016 to 58.3% in 2020. In 2020, China's actual production of rare earth will exceed 150,000 tons, which is higher than the quota. The reason is that there are illegal mining and smuggling. There is no tax to engage in illegal mining and smuggling of rare earth, and the profit rate is very high, so it cannot be completely eliminated.
The analysis shows that the prices of rare earth oxides and metals in China in 2020 are mostly higher than that in 2019. With the continuous escalation of the Chinese government's crackdown on the illegal mining of rare earth and the adoption of policies such as the national reserve of rare earth, it is expected that rare earth prices can increase in the next few years.
The downstream demand for rare earth is divided into five major sectors: permanent magnet materials, catalytic materials, luminescent materials, polishing materials, and hydrogen storage materials. With the rapid development of global high-tech industries, rare earth is being applied to more high-tech fields and the consumption of rare earth new materials is growing rapidly. The new energy vehicle industry, the wind power industry and other consumers of rare earth all have a promising future, which promotes the development of the rare earth industry. For example, in 2020, the global production of new energy vehicles reached 2.55 million, among which 1.366 million units were produced in China, up by about 10% YOY. Rare earth hydrogen storage alloys are mainly used in NiMH power batteries. 95% of the world's rare earth hydrogen storage alloys are supplied by China and Japan. The production of China's hydrogen storage alloys exceeds 70% of the world's total production. A hybrid electric vehicle needs about 10 kg of hydrogen storage alloy. In general, a hydrogen storage alloy contains 30% mischmetal, which means that a hybrid electric vehicle consumes about 3 kg of rare earth. The drive motor of a hybrid electric vehicle consumes about 1 kg to 3 kg of neodymium-iron-boron magnetic materials; the drive motor of a battery electric vehicle consumes about 5 kg to 10 kg.
The analyst analyzes that according to the plan of the Chinese government, the annual production of new energy vehicles in China will exceed 5 million units by 2025. If this goal can be achieved, new energy vehicles will consume 50,000 tons of rare earth in 2025 or more, which will boost the development of China's rare earth industry.
Topics Covered:
- Global supply of and demand for rare earth
- Global trade of rare earth
- Chinese government's policies on rare earth
- Rare earth production in China
- Demand for rare earth in China
- China's rare earth imports and exports
- Price trends of rare earth and rare earth materials in China
- Major rare earth mining and refining enterprises in China
- Major producers of rare earth materials in China
- Driving forces and market opportunities for China's rare earth industry from 2021 to 2025
- Forecast on the supply of and demand for rare earth in China from 2021 to 2025
Table of Contents
1 Concept of the Rare Earth Industry
1.1 Definition and Classification of Rare Earths
1.1.1 Definition of Rare Earths
1.1.2 Classification of Rare Earths
1.1.3 Applications of Rare Earths
1.2 Global Distribution of Rare Earth Ores and Production Volume of Rare Earths
1.2.1 Global Distribution of Rare Earth Ores
1.2.2 Global Production Capacity of Rare Earths per Year
1.2.3 Global Production Volume of Rare Earths
1.3 Methodology
1.3.1 Data Sources
1.3.2 Parameters and Assumptions
1.3.3 About the Author
2 Supply of and Demand for Rare Earths in China, 2016-2020
2.1 Development of China's Rare Earth Industry
2.1.1 History of Rare Earth Production in China
2.1.2 Distribution of Rare Earth Ores in China
2.1.3 Production Volume of Legal Rare Earths in China, 2016-2020
2.1.4 Actual Production Volume of Rare Earths in China
2.1.5 Consumption of Rare Earths in China
2.1.6 Price Trend of Rare Earths in China
2.2 Development Environment for China's Rare Earth Industry
2.2.1 Chinese Government's Policies on the Rare Earth Industry
2.2.2 Economic Environment for China's Rare Earth Industry
2.3 Global Consumption of Rare Earths, 2016-2020
2.3.1 Overview of Global Consumption
2.3.2 Consumption of Rare Earths in China
2.3.3 Consumption of Rare Earths in the U.S.
2.3.4 Consumption of Rare Earths in Japan
2.4 China's Rare Earth Exports
2.4.1 Legal Exports
2.4.2 Illegal Mining and Smuggling
3 Analysis on Downstream Applications of Rare Earths in China, 2016-2020
3.1 Rare-earth Magnets
3.1.1 Production
3.1.2 Application
3.2 Rare Earth Luminescent Materials
3.2.1 Production
3.2.2 Application
3.3 Rare Earth Hydrogen Storage Materials
3.4 Rare Earth Polishing Materials
3.5 Rare Earth Catalytic Materials
4 Analysis of Major Rare Earth Mining and Refining Enterprises in China, 2016-2020
4.1 China Minmetals Corporation
4.1.1 Profile of China Minmetals Corporation
4.1.2 Operation Performance of China Minmetals Corporation
4.1.3 Development Strategies of China Minmetals Corporation
4.2 Aluminum Corporation of China Limited (CHALCO)
4.3 Baotou Steel (Group) Co., Ltd.
4.4 Xiamen Tungsten Industry Co., Ltd.
4.5 Ganzhou Rare Earth Group Co., Ltd.
4.6 Guangdong Rare Earths Industry Group Co., Ltd.
5 Major Producers of Rare Earth Materials in China, 2016-2020
5.1 Lingyi Itech (Guangdong) Company
5.1.1 Overview of Lingyi Itech (Guangdong) Company
5.1.2 Operation Status of Lingyi Itech (Guangdong) Company
5.2 Beijing Zhongke Sanhuan High-tech Co., Ltd.
5.2.1 Overview of Beijing Zhongke Sanhuan High-tech Co., Ltd.
5.2.2 Operation Status of Beijing Zhongke Sanhuan High-tech Co., Ltd.
5.3 Guangdong Weihua Corporation
5.3.1 Overview of Guangdong Weihua Corporation
5.3.2 Operation Status of Guangdong Weihua Corporation
5.4 Guangdong Fenghua Advanced Technology Holding Co., Ltd.
5.4.1 Overview of Guangdong Fenghua Advanced Technology Holding Co., Ltd.
5.4.2 Operation Status of Guangdong Fenghua Advanced Technology Holding Co., Ltd.
5.5 Yantai Zhenghai Magnetic Material Co., Ltd.
5.5.1 Overview of Yantai Zhenghai Magnetic Materials Co., Ltd.
5.5.2 Operation Status of Yantai Zhenghai Magnetic Materials Co., Ltd.
5.6 Innuovo Technology Co., Ltd.
5.7 China Minmetals Rare Earth Co., Ltd.
5.8 Guangsheng Nonferrous Metals Co., Ltd.
5.9 Fujian Mindong Electric Power Co., Ltd.
5.10 Tiantong Holdings Co., Ltd.
5.11 Antai Technology Co., Ltd.
5.12 Hunan Corun New Energy Co., Ltd.
5.13 Ningbo Yunsheng Co., Ltd.
5.14 Nordisk Investment Co., Ltd.
5.15 China Northern Rare Earth (Group) High-Tech Co., Ltd.
5.16 Jiangxi Copper Industry Co., Ltd.
5.17 Aluminum Corporation of China Limited
5.18 China Nonferrous Metals Industry's Foreign Engineering and Construction Co., Ltd.
5.19 Grinm Advanced Materials Co.,Ltd.
5.20 Tibet Mining Development Co., Ltd.
5.21 Pengqi Technology Development Co., Ltd.
5.22 Chengdu Yinhe Magnet Co., Ltd.
5.23 Hengdian Group Dongci Magnetics Co., Ltd.
5.24 Sinosteel Anhui Tianyuan Technology Co., Ltd.
5.25 Bgrimm Technology Co., Ltd.
5.26 Shenghe Resources Holdings Co., Ltd.
5.27 Xiamen Tungsten Co., Ltd.
5.28 Minmetals Development Co., Ltd.
6 Prospect of China's Rare Earth Industry, 2021-2025
6.1 Factors Influencing Development of China's Rare Earth Industry, 2021-2025
6.1.1 Driving Forces and Market Opportunities
6.1.2 Threats and Challenges
6.2 Forecast on Supply of Rare Earths in China, 2021-2025
6.2.1 Forecast on Production Capacity of Rare Earths in China
6.2.2 Forecast on Production Volume of Rare Earths in China, 2021-2025
6.2.3 Forecast on Demand for Rare Earth in China, 2021-2025
6.2.4 Forecast on China's Rare Earth Imports and Exports, 2021-2025
6.3 Forecast on Investment Opportunities in China's Rare Earth Industry, 2021-2025
Selected Charts
Chart China's Rare Earth Reserves, 2016-2020
Chart Production Volume of Rare Earths in China, 2016-2020
Chart Average Spot Price of Rare Earths in China, 2016-2020: Neodymium Oxide (Nd2O3/TREO 99.00%-99.90%)
Chart Average Spot Price of Rare Earths in China, 2016-2020: Lanthanum Oxide (La2O3/TREO 99.50%-99.90%)
Chart Average Spot Price of Rare Earths in China, 2016-2020: Cerium Oxide (CeO2/TREO 99.50%-99.90%)
Chart Average Spot Price of Rare Earths in China, 2016-2020: Praseodymium Oxide (Pr6O11/TREO 99.00%-99.90%)
Chart Average Spot Price of Rare Earths in China, 2016-2020: Lanthanum (La/TREM≥99.00%)
Chart Average Spot Price of Rare Earths in China, 2016-2020: Praseodymium (Pr/TREM 96.00%-99.00%)
Chart Average Spot Price of Rare Earths in China, 2016-2020: Neodymium (Nd/TREM 99.00%-99.90%)
Chart Average Spot Price of Rare Earths in China, 2016-2020: Battery-grade Mischmetal (TREM≥99.00% Nd/TREM≥15%)
Chart Average Spot Price of Rare Earths in China, 2016-2020: Praseodymium-neodymium-dysprosium Alloy (TREM≥99.00%)
Chart Average Spot Price of Rare Earths in China, 2016-2020: Dysprosium-iron Alloy (Dy 80%)
Chart Average Spot Price of Rare Earths in China, 2016-2020: Sintered Neodymium Iron Boron
Chart Major Policies on China's Rare Earth Industry, 2016-2020
Chart Volume of China's Legal Rare Earth Exports, 2016-2020
Chart Production Volume of New Energy Vehicles in China, 2016-2020
Chart Rare Earth Ores of China's Six Major Rare Earth Groups, 2020
Chart Operation Performance of JL MAG Rare Earth Co., Ltd., 2016-2020
Chart Operation Performance of China Minmetals Rare Earth Co., Ltd., 2016-2020
Chart Forecast on Legal and Actual Production Volumes of Rare Earths in China, 2021-2025
Chart Forecast on Production Volume of New Energy Vehicles in China, 2021-2025
Chart Volume of China's Rare Earth demand,2021-2025
Samples
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Companies Mentioned
- Aluminum Corporation of China Limited
- Antai Technology Co., Ltd.
- Baotou Steel (Group) Co., Ltd.
- Beijing Zhongke Sanhuan High-tech Co., Ltd.
- Bgrimm Technology Co., Ltd.
- Chengdu Yinhe Magnet Co., Ltd.
- China Minmetals Corporation
- China Minmetals Rare Earth Co., Ltd.
- China Nonferrous Metals Industry's Foreign Engineering and Construction Co., Ltd.
- China Northern Rare Earth (Group) High-Tech Co., Ltd.
- Fujian Mindong Electric Power Co., Ltd.
- Ganzhou Rare Earth Group Co., Ltd.
- Grinm Advanced Materials Co.,Ltd.
- Guangdong Fenghua Advanced Technology Holding Co., Ltd.
- Guangdong Rare Earths Industry Group Co., Ltd.
- Guangdong Weihua Corporation
- Guangsheng Nonferrous Metals Co., Ltd.
- Hengdian Group Dongci Magnetics Co., Ltd.
- Hunan Corun New Energy Co., Ltd.
- Innuovo Technology Co., Ltd.
- Jiangxi Copper Industry Co., Ltd.
- Lingyi Itech (Guangdong) Company
- Minmetals Development Co., Ltd.
- Ningbo Yunsheng Co., Ltd.
- Nordisk Investment Co., Ltd.
- Pengqi Technology Development Co., Ltd.
- Shenghe Resources Holdings Co., Ltd.
- Sinosteel Anhui Tianyuan Technology Co., Ltd.
- Tiantong Holdings Co., Ltd.
- Tibet Mining Development Co., Ltd.
- Xiamen Tungsten Co., Ltd.
- Xiamen Tungsten Industry Co., Ltd.
- Yantai Zhenghai Magnetic Material Co., Ltd.
Methodology
Background research defines the range of products and industries, which proposes the key points of the research. Proper classification will help clients understand the industry and products in the report.
Secondhand material research is a necessary way to push the project into fast progress. The analyst always chooses the data source carefully. Most secondhand data they quote is sourced from an authority in a specific industry or public data source from governments, industrial associations, etc. For some new or niche fields, they also "double-check" data sources and logics before they show them to clients.
Primary research is the key to solve questions, which largely influence the research outputs. The analyst may use methods like mathematics, logical reasoning, scenario thinking, to confirm key data and make the data credible.
The data model is an important analysis method. Calculating through data models with different factors weights can guarantee the outputs objective.
The analyst optimizes the following methods and steps in executing research projects and also forms many special information gathering and processing methods.
1. Analyze the life cycle of the industry to understand the development phase and space.
2. Grasp the key indexes evaluating the market to position clients in the market and formulate development plans
3. Economic, political, social and cultural factors
4. Competitors like a mirror that reflects the overall market and also market differences.
5. Inside and outside the industry, upstream and downstream of the industry chain, show inner competitions
6. Proper estimation of the future is good guidance for strategic planning.
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Table Information
Report Attribute | Details |
---|---|
No. of Pages | 70 |
Published | May 2021 |
Forecast Period | 2016 - 2025 |
Estimated Market Value in 2016 | 105 Thousand Tonnes |
Forecasted Market Value by 2025 | 162.3 Thousand Tonnes |
Compound Annual Growth Rate | 5.0% |
Regions Covered | China |
No. of Companies Mentioned | 33 |