China Antimony Resource Development Research Report 2021
2022-03-25 10:32:23 【Print】
Table of Contents
List of Figures
List of Tables
Text
Table of Contents
1 Definition
2 Overview of Ore
2.1 Definition of Ore
2.1.1 Stibnite
2.1.2 Livingstonite
2.1.3 Jamesonite
2.1.4 Senarmontite
2.1.5 Valentinite
2.2 Identified Resources
2.2.1 Volume of Identified Resources
2.2.2 Distribution of Identified Resources
2.2.3 Forecast of Identified Resources
2.3 Characteristics of Ore
2.3.1 Rich Reserves
2.3.2 Highly Concentrated
2.3.3 Primarily Medium Mines
2.4 Types of Ore
2.4.1 By Degree of Oxidation
2.4.2 By Type of Orebodies
2.4.3 By Major Components
2.5 Exploitation of Ore
2.5.1 Exploitation Proportion
2.5.1.1 General Proportion
2.5.1.2 Proportion by Type
2.5.2 Exploitation Distribution
3 Beneficiation of Ore
3.1 Beneficiation Methods
3.1.1 Types of Beneficiation Methods
3.1.2 Definition of Beneficiation Methods
3.1.2.1 Hand Sorting and Flotation
3.1.2.1.1 Description
3.1.2.1.2 Process
3.1.2.1.3 Characteristics
3.1.2.2 Hand Sorting and Gravity Concentration and Flotation
3.1.2.2.1 Description
3.1.2.2.2 Process
3.1.2.2.3 Characteristics
3.1.3 Comparison of Beneficiation Methods
3.1.4 Application of Beneficiation Methods
3.1.4.1 Application Rates
3.1.4.1.1 Application Rates by Capacity
3.1.4.1.2 Application Rates by Output
3.1.4.1.3 Application Rates by Operation
3.1.4.2 Applied Companies
3.2 Concentrate Standard Specifications
3.2.1 Sulfide Concentrate
3.2.1.1 Fines
3.2.1.1.1 Grade I
3.2.1.1.2 Grade II
3.2.1.1.3 Grade III
3.2.1.1.4 Grade IV
3.2.1.2 Lumps
3.2.1.2.1 Grade I
3.2.1.2.2 Grade II
3.2.1.2.3 Grade III
3.2.1.2.4 Grade IV
3.2.1.2.5 Grade V
3.2.1.2.6 Grade VI
3.2.2 Complex Concentrate
3.2.2.1 Fines
3.2.2.1.1 Grade I
3.2.2.1.2 Grade II
3.2.2.1.3 Grade III
3.2.2.2 Lumps
3.2.2.2.1 Grade I
3.2.2.2.2 Grade II
3.2.2.2.3 Grade III
3.2.2.2.4 Grade IV
3.2.2.2.5 Grade V
3.2.2.2.6 Grade VI
3.2.3 Oxide Concentrate
3.2.3.1 Grade I
3.2.3.2 Grade II
3.2.3.3 Grade III
3.2.3.4 Grade IV
3.3 Types of Concentrate
3.3.1 Definition of Types
3.3.1.1 By Grade
3.3.1.2 By Composition
3.3.1.3 By Size
3.3.2 Maket Share of Types
3.3.2.1 By Grade
3.3.2.2 By Composition
3.3.2.3 By Size
3.3.3 Comparison of Types
3.3.3.1 By Grade
3.3.3.2 By Composition
3.3.3.3 By Size
4 Production of Metal
4.1 Production Methods
4.1.1 Types of Production Methods
4.1.2 Definition of Production Methods
4.1.2.1 Reduction Smelting
4.1.2.1.1 Blast Furnace Volatilization Reduction
4.1.2.1.1.1 Description
4.1.2.1.1.2 Process
4.1.2.1.1.3 Characteristics
4.1.2.1.2 Open Hearth Furnace Volatilization Reduction
4.1.2.1.2.1 Description
4.1.2.1.2.2 Process
4.1.2.1.2.3 Characteristics
4.1.2.2 Alkaline Electrolysis
4.1.2.2.1 Description
4.1.2.2.2 Process
4.1.2.2.3 Characteristics
4.1.3 Comparison of Production Methods
4.1.4 Application of Production Methods
4.1.4.1 Application Rates of Reduction Smelting and Alkaline Electrolysis
4.1.4.1.1 Application Rates by Capacity
4.1.4.1.2 Application Rates by Output
4.1.4.1.3 Application Rates by Operation
4.1.4.2 Application of Reduction Smelting
4.1.4.2.1 Application Rates by Capacity
4.1.4.2.2 Application Rates by Output
4.1.4.2.3 Application Rates by Operation
4.1.4.3 Applied Companies
4.2 Raw Material Consumption
4.2.1 Reduction Smelting
4.2.1.1 Blast Furnace Volatilization Reduction
4.2.1.2 Open Hearth Furnace Volatilization Reduction
4.2.2 Alkaline Electrolysis
4.3 Standard Specifications
4.3.1 Sb99.90
4.3.2 Sb99.70
4.3.3 Sb99.65
4.3.4 Sb99.50
4.4 Product Types
4.4.1 Definition of Types
4.4.2 Market Share of Types
4.4.3 Comparison of Types
4.5 Product Applications
5 Role in Industrial Chains
5.1 Antimony Oxide Industry
5.2 Antimony Alloy Industry
6 Value in National Economies
6.1 Industry Value
6.1.1 By Year
6.1.2 By Province
6.2 Industry Employment
1 Definition
2 Overview of Ore
2.1 Definition of Ore
2.1.1 Stibnite
2.1.2 Livingstonite
2.1.3 Jamesonite
2.1.4 Senarmontite
2.1.5 Valentinite
2.2 Identified Resources
2.2.1 Volume of Identified Resources
2.2.2 Distribution of Identified Resources
2.2.3 Forecast of Identified Resources
2.3 Characteristics of Ore
2.3.1 Rich Reserves
2.3.2 Highly Concentrated
2.3.3 Primarily Medium Mines
2.4 Types of Ore
2.4.1 By Degree of Oxidation
2.4.2 By Type of Orebodies
2.4.3 By Major Components
2.5 Exploitation of Ore
2.5.1 Exploitation Proportion
2.5.1.1 General Proportion
2.5.1.2 Proportion by Type
2.5.2 Exploitation Distribution
3 Beneficiation of Ore
3.1 Beneficiation Methods
3.1.1 Types of Beneficiation Methods
3.1.2 Definition of Beneficiation Methods
3.1.2.1 Hand Sorting and Flotation
3.1.2.1.1 Description
3.1.2.1.2 Process
3.1.2.1.3 Characteristics
3.1.2.2 Hand Sorting and Gravity Concentration and Flotation
3.1.2.2.1 Description
3.1.2.2.2 Process
3.1.2.2.3 Characteristics
3.1.3 Comparison of Beneficiation Methods
3.1.4 Application of Beneficiation Methods
3.1.4.1 Application Rates
3.1.4.1.1 Application Rates by Capacity
3.1.4.1.2 Application Rates by Output
3.1.4.1.3 Application Rates by Operation
3.1.4.2 Applied Companies
3.2 Concentrate Standard Specifications
3.2.1 Sulfide Concentrate
3.2.1.1 Fines
3.2.1.1.1 Grade I
3.2.1.1.2 Grade II
3.2.1.1.3 Grade III
3.2.1.1.4 Grade IV
3.2.1.2 Lumps
3.2.1.2.1 Grade I
3.2.1.2.2 Grade II
3.2.1.2.3 Grade III
3.2.1.2.4 Grade IV
3.2.1.2.5 Grade V
3.2.1.2.6 Grade VI
3.2.2 Complex Concentrate
3.2.2.1 Fines
3.2.2.1.1 Grade I
3.2.2.1.2 Grade II
3.2.2.1.3 Grade III
3.2.2.2 Lumps
3.2.2.2.1 Grade I
3.2.2.2.2 Grade II
3.2.2.2.3 Grade III
3.2.2.2.4 Grade IV
3.2.2.2.5 Grade V
3.2.2.2.6 Grade VI
3.2.3 Oxide Concentrate
3.2.3.1 Grade I
3.2.3.2 Grade II
3.2.3.3 Grade III
3.2.3.4 Grade IV
3.3 Types of Concentrate
3.3.1 Definition of Types
3.3.1.1 By Grade
3.3.1.2 By Composition
3.3.1.3 By Size
3.3.2 Maket Share of Types
3.3.2.1 By Grade
3.3.2.2 By Composition
3.3.2.3 By Size
3.3.3 Comparison of Types
3.3.3.1 By Grade
3.3.3.2 By Composition
3.3.3.3 By Size
4 Production of Metal
4.1 Production Methods
4.1.1 Types of Production Methods
4.1.2 Definition of Production Methods
4.1.2.1 Reduction Smelting
4.1.2.1.1 Blast Furnace Volatilization Reduction
4.1.2.1.1.1 Description
4.1.2.1.1.2 Process
4.1.2.1.1.3 Characteristics
4.1.2.1.2 Open Hearth Furnace Volatilization Reduction
4.1.2.1.2.1 Description
4.1.2.1.2.2 Process
4.1.2.1.2.3 Characteristics
4.1.2.2 Alkaline Electrolysis
4.1.2.2.1 Description
4.1.2.2.2 Process
4.1.2.2.3 Characteristics
4.1.3 Comparison of Production Methods
4.1.4 Application of Production Methods
4.1.4.1 Application Rates of Reduction Smelting and Alkaline Electrolysis
4.1.4.1.1 Application Rates by Capacity
4.1.4.1.2 Application Rates by Output
4.1.4.1.3 Application Rates by Operation
4.1.4.2 Application of Reduction Smelting
4.1.4.2.1 Application Rates by Capacity
4.1.4.2.2 Application Rates by Output
4.1.4.2.3 Application Rates by Operation
4.1.4.3 Applied Companies
4.2 Raw Material Consumption
4.2.1 Reduction Smelting
4.2.1.1 Blast Furnace Volatilization Reduction
4.2.1.2 Open Hearth Furnace Volatilization Reduction
4.2.2 Alkaline Electrolysis
4.3 Standard Specifications
4.3.1 Sb99.90
4.3.2 Sb99.70
4.3.3 Sb99.65
4.3.4 Sb99.50
4.4 Product Types
4.4.1 Definition of Types
4.4.2 Market Share of Types
4.4.3 Comparison of Types
4.5 Product Applications
5 Role in Industrial Chains
5.1 Antimony Oxide Industry
5.2 Antimony Alloy Industry
6 Value in National Economies
6.1 Industry Value
6.1.1 By Year
6.1.2 By Province
6.2 Industry Employment
List of Figures
Figure 1 China Identified Antimony Resources Volume by Year 2010-2019 (Metal 10kt)
Figure 2 China Identified Antimony Resources Volume by Province 2019 (Metal 10kt)
Figure 3 China Identified Antimony Resources Volume 2020-2022 (Metal 10kt)
Figure 4 World Identified Antimony Resources Volume by Country 2019
Figure 5 China Identified Antimony Resources Volume Regional Concentration 2019
Figure 6 China Identified Antimony Resources Volume by Size of Orebodies 2019
Figure 7 China Identified Antimony Resources Volume by Degree of Oxidation 2019
Figure 8 China Identified Antimony Resources Volume by Type of Orebodies 2019
Figure 9 China Identified Antimony Resources Volume by Major Components 2019
Figure 10 China Identified Antimony Resources Exploitation Proportion 2019
Figure 11 China Identified Antimony Resources Exploitation Proportion by Types 2019 (Metal 10kt)
Figure 12 China Exploited Antimony Resources Regional Distribution 2019 (Metal 10kt)
Figure 13 China Hand Sorting and Flotation Beneficiation Method Flowchart of Antimony Ore 2020
Figure 14 China Hand Sorting and Gravity Concentration and Flotation Beneficiation Method Flowchart of Antimony Ore 2020
Figure 15 China Application Rates of Beneficiation Methods of Antimony Ore by Capacity 2020
Figure 16 China Application Rates of Beneficiation Methods of Antimony Ore by Output 2020
Figure 17 China Application Rates of Beneficiation Methods of Antimony Ore by Operation 2020
Figure 18 China Antimony Concentrate Volume by Grade 2020
Figure 19 China Antimony Concentrate Volume by Composition 2020
Figure 20 China Antimony Concentrate Volume by Size 2020
Figure 21 China Blast Furnace Volatilization and Reduction Method Flowchart of Antimony Metal 2020
Figure 22 China Open Hearth Furnace Volatilization Reduction Method Flowchart of Antimony Metal 2020
Figure 23 China Alkaline Electrolysis Method Flowchart of Antimony Metal 2020
Figure 24 China Application Rates of Production Methods of Antimony Metal by Capacity 2020
Figure 25 China Application Rates of Production Methods of Antimony Metal by Output 2020 (10kt)
Figure 26 China Application Rates of Production Methods of Antimony Metal by Operation 2020
Figure 27 China Application Rates of Reduction Smelting of Antimony Metal by Capacity 2020
Figure 28 China Application Rates of Reduction Smelting of Antimony Metal by Output 2020
Figure 29 China Application Rates of Reduction Smelting of Antimony Metal by Operation 2020
Figure 30 China Antimony Metal Market Share by Output 2020
Figure 31 China Antimony Metal's Role in Antimony Oxide Industry 2020
Figure 32 China Antimony Metal's Role in Antimony Alloy Industry 2020
Figure 33 China Value of Antimony Metal Industry by Year 2020 (100m USD)
Figure 34 China Value of Antimony Metal Industry by Province 2020 (100m USD)
Figure 35 China Employment of Antimony Metal Industry by Province 2020 (Jobs)
Figure 1 China Identified Antimony Resources Volume by Year 2010-2019 (Metal 10kt)
Figure 2 China Identified Antimony Resources Volume by Province 2019 (Metal 10kt)
Figure 3 China Identified Antimony Resources Volume 2020-2022 (Metal 10kt)
Figure 4 World Identified Antimony Resources Volume by Country 2019
Figure 5 China Identified Antimony Resources Volume Regional Concentration 2019
Figure 6 China Identified Antimony Resources Volume by Size of Orebodies 2019
Figure 7 China Identified Antimony Resources Volume by Degree of Oxidation 2019
Figure 8 China Identified Antimony Resources Volume by Type of Orebodies 2019
Figure 9 China Identified Antimony Resources Volume by Major Components 2019
Figure 10 China Identified Antimony Resources Exploitation Proportion 2019
Figure 11 China Identified Antimony Resources Exploitation Proportion by Types 2019 (Metal 10kt)
Figure 12 China Exploited Antimony Resources Regional Distribution 2019 (Metal 10kt)
Figure 13 China Hand Sorting and Flotation Beneficiation Method Flowchart of Antimony Ore 2020
Figure 14 China Hand Sorting and Gravity Concentration and Flotation Beneficiation Method Flowchart of Antimony Ore 2020
Figure 15 China Application Rates of Beneficiation Methods of Antimony Ore by Capacity 2020
Figure 16 China Application Rates of Beneficiation Methods of Antimony Ore by Output 2020
Figure 17 China Application Rates of Beneficiation Methods of Antimony Ore by Operation 2020
Figure 18 China Antimony Concentrate Volume by Grade 2020
Figure 19 China Antimony Concentrate Volume by Composition 2020
Figure 20 China Antimony Concentrate Volume by Size 2020
Figure 21 China Blast Furnace Volatilization and Reduction Method Flowchart of Antimony Metal 2020
Figure 22 China Open Hearth Furnace Volatilization Reduction Method Flowchart of Antimony Metal 2020
Figure 23 China Alkaline Electrolysis Method Flowchart of Antimony Metal 2020
Figure 24 China Application Rates of Production Methods of Antimony Metal by Capacity 2020
Figure 25 China Application Rates of Production Methods of Antimony Metal by Output 2020 (10kt)
Figure 26 China Application Rates of Production Methods of Antimony Metal by Operation 2020
Figure 27 China Application Rates of Reduction Smelting of Antimony Metal by Capacity 2020
Figure 28 China Application Rates of Reduction Smelting of Antimony Metal by Output 2020
Figure 29 China Application Rates of Reduction Smelting of Antimony Metal by Operation 2020
Figure 30 China Antimony Metal Market Share by Output 2020
Figure 31 China Antimony Metal's Role in Antimony Oxide Industry 2020
Figure 32 China Antimony Metal's Role in Antimony Alloy Industry 2020
Figure 33 China Value of Antimony Metal Industry by Year 2020 (100m USD)
Figure 34 China Value of Antimony Metal Industry by Province 2020 (100m USD)
Figure 35 China Employment of Antimony Metal Industry by Province 2020 (Jobs)
List of Tables
Table 1 China Physical and Chemical Definition of Antimony Metal 2021
Table 2 China Definition of Stibnite 2021
Table 3 China Definition of Livingstonite 2021
Table 4 China Definition of Jamesonite 2021
Table 5 China Definition of Senarmontite 2021
Table 6 China Definition of Valentinite 2021
Table 7 China Identified Antimony Resources Volume by Year 2010-2019 (Metal 10kt)
Table 8 China Identified Antimony Resources Volume by Province 2019 (Metal 10kt)
Table 9 China Identified Antimony Resources Volume 2020-2022 (Metal 10kt)
Table 10 World Identified Antimony Resources Volume by Country 2019 (Metal 10kt)
Table 11 China Identified Antimony Resources Volume Regional Concentration 2019 (Metal 10kt)
Table 12 China Identified Antimony Resources Volume by Size of Ore Bodies 2019 (Metal 10kt)
Table 13 China Classification Standards of Size of Orebodies of Identified Antimony Resources 2019 (Metal 10kt)
Table 14 China Identified Antimony Resources Volume by Degree of Oxidation 2019 (Metal 10kt)
Table 15 China Identified Antimony Resources Volume by Type of Orebodies 2019 (Metal 10kt)
Table 16 China Identified Antimony Resources Volume by Major Components 2019 (Metal 10kt)
Table 17 China Identified Antimony Resources Exploitation Proportion 2019 (Metal 10kt)
Table 18 China Identified Antimony Resources Exploitation Proportion by Types 2019 (Metal 10kt)
Table 19 China Exploited Antimony Resources Regional Distribution 2019 (Metal 10kt)
Table 20 China Application of Beneficiation Methods of Antimony Ore 2020
Table 21 China Advantages and Disadvantages of Beneficiation Methods of Antimony Ore 2020
Table 22 China Application Rates of Beneficiation Methods of Antimony Ore by Capacity 2020 (Metal 10kt)
Table 23 China Application Rates of Beneficiation Methods of Antimony Ore by Output 2020 (Metal 10kt)
Table 24 China Application Rates of Beneficiation Methods of Antimony Ore by Operation 2020 (Metal 10kt)
Table 25 China Typical Applied Companies of Beneficiation Methods of Antimony Ore 2020
Table 26 China Standard Specifications for Sulfide Concentrate Fines 2020 – Grade I
Table 27 China Standard Specifications for Sulfide Concentrate Fines 2020 – Grade II
Table 28 China Standard Specifications for Sulfide Concentrate Fines 2020 – Grade III
Table 29 China Standard Specifications for Sulfide Concentrate Fines 2020 – Grade IV
Table 30 China Standard Specifications for Sulfide Concentrate Lumps 2020 – Grade I
Table 31 China Standard Specifications for Sulfide Concentrate Lumps 2020 – Grade II
Table 32 China Standard Specifications for Sulfide Concentrate Lumps 2020 – Grade III
Table 33 China Standard Specifications for Sulfide Concentrate Lumps 2020 – Grade IV
Table 34 China Standard Specifications for Sulfide Concentrate Lumps 2020 – Grade V
Table 35 China Standard Specifications for Sulfide Concentrate Lumps 2020 – Grade VI
Table 36 China Standard Specifications for Complex Concentrate Fines 2020 – Grade I
Table 37 China Standard Specifications for Complex Concentrate Fines 2020 – Grade II
Table 38 China Standard Specifications for Complex Concentrate Fines 2020 – Grade III
Table 39 China Standard Specifications for Complex Concentrate Lumps 2020 – Grade I
Table 40 China Standard Specifications for Complex Concentrate Lumps 2020 – Grade II
Table 41 China Standard Specifications for Complex Concentrate Lumps 2020 – Grade III
Table 42 China Standard Specifications for Complex Concentrate Lumps 2020 – Grade IV
Table 43 China Standard Specifications for Complex Concentrate Lumps 2020 – Grade V
Table 44 China Standard Specifications for Complex Concentrate Lumps 2020 – Grade VI
Table 45 China Standard Specifications for Oxide Concentrate Lumps 2020 – Grade I
Table 46 China Standard Specifications for Oxide Concentrate Lumps 2020 – Grade II
Table 47 China Standard Specifications for Oxide Concentrate Lumps 2020 – Grade III
Table 48 China Standard Specifications for Oxide Concentrate Lumps 2020 – Grade IV
Table 49 China Definition of Grades of Antimony Concentrate 2020
Table 50 China Definition of Composition of Antimony Concentrate 2020
Table 51 China Definition of Size of Antimony Concentrate 2020
Table 52 China Antimony Concentrate Volume by Grade 2020 (Metal 10kt)
Table 53 China Antimony Concentrate Volume by Composition 2020 (Metal 10kt)
Table 54 China Antimony Concentrate Volume by Size 2020 (Metal 10kt)
Table 55 China Advantages and Disadvantages of Antimony Concentrate by Grade 2020
Table 56 China Advantages and Disadvantages of Antimony Concentrate by Composition 2020
Table 57 China Advantages and Disadvantages of Antimony Concentrate by Size 2020
Table 58 China Production Methods of Antimony Metal 2020
Table 59 China Advantages and Disadvantages of Production Methods of Antimony Metal 2021
Table 60 China Application Rates of Production Methods of Antimony Metal by Capacity 2020 (10kt)
Table 61 China Application Rates of Production Methods of Antimony Metal by Output 2020 (10kt)
Table 62 China Application Rates of Production Methods of Antimony Metal by Operation 2020 (10kt)
Table 63 China Application Rates of Reduction Smelting of Antimony Metal by Capacity 2020 (10kt)
Table 64 China Application Rates of Reduction Smelting of Antimony Metal by Output 2020 (10kt)
Table 65 China Application Rates of Reduction Smelting of Antimony Metal by Operation 2020 (10kt)
Table 66 China Typical Applied Companies of Production Methods of Antimony Metal 2020
Table 67 China Raw Material Consumption of Blast Furnace Volatilization Reduction of Antimony Metal 2020 (t)
Table 68 China Raw Material Consumption of Open Hearth Furnace Volatilization Reduction of Antimony Metal 2020 (t)
Table 69 China Raw Material Consumption of Alkaline Electrolysis of Antimony Metal 2020 (t)
Table 70 China Standard Specifications for Antimony Metal Sb99.90 2020
Table 71 China Standard Specifications for Antimony Metal Sb99.70 2020
Table 72 China Standard Specifications for Antimony Metal Sb99.65 2020
Table 73 China Standard Specifications for Antimony Metal Sb99.50 2020
Table 74 China Antimony Metal Definition by Major Types 2020
Table 75 China Antimony Metal Market Share by Output 2020 (10kt)
Table 76 China Advantages and Disadvantages of Major Types of Antimony Metal 2020
Table 77 China Applications of Antimony Metal 2020
Table 78 China Value of Antimony Metal Industry by Year 2020 (100m USD)
Table 79 China Value of Antimony Metal Industry by Province 2020 (100m USD)
Table 80 China Employment of Antimony Metal Industry by Province 2020 (Jobs)
Table 1 China Physical and Chemical Definition of Antimony Metal 2021
Table 2 China Definition of Stibnite 2021
Table 3 China Definition of Livingstonite 2021
Table 4 China Definition of Jamesonite 2021
Table 5 China Definition of Senarmontite 2021
Table 6 China Definition of Valentinite 2021
Table 7 China Identified Antimony Resources Volume by Year 2010-2019 (Metal 10kt)
Table 8 China Identified Antimony Resources Volume by Province 2019 (Metal 10kt)
Table 9 China Identified Antimony Resources Volume 2020-2022 (Metal 10kt)
Table 10 World Identified Antimony Resources Volume by Country 2019 (Metal 10kt)
Table 11 China Identified Antimony Resources Volume Regional Concentration 2019 (Metal 10kt)
Table 12 China Identified Antimony Resources Volume by Size of Ore Bodies 2019 (Metal 10kt)
Table 13 China Classification Standards of Size of Orebodies of Identified Antimony Resources 2019 (Metal 10kt)
Table 14 China Identified Antimony Resources Volume by Degree of Oxidation 2019 (Metal 10kt)
Table 15 China Identified Antimony Resources Volume by Type of Orebodies 2019 (Metal 10kt)
Table 16 China Identified Antimony Resources Volume by Major Components 2019 (Metal 10kt)
Table 17 China Identified Antimony Resources Exploitation Proportion 2019 (Metal 10kt)
Table 18 China Identified Antimony Resources Exploitation Proportion by Types 2019 (Metal 10kt)
Table 19 China Exploited Antimony Resources Regional Distribution 2019 (Metal 10kt)
Table 20 China Application of Beneficiation Methods of Antimony Ore 2020
Table 21 China Advantages and Disadvantages of Beneficiation Methods of Antimony Ore 2020
Table 22 China Application Rates of Beneficiation Methods of Antimony Ore by Capacity 2020 (Metal 10kt)
Table 23 China Application Rates of Beneficiation Methods of Antimony Ore by Output 2020 (Metal 10kt)
Table 24 China Application Rates of Beneficiation Methods of Antimony Ore by Operation 2020 (Metal 10kt)
Table 25 China Typical Applied Companies of Beneficiation Methods of Antimony Ore 2020
Table 26 China Standard Specifications for Sulfide Concentrate Fines 2020 – Grade I
Table 27 China Standard Specifications for Sulfide Concentrate Fines 2020 – Grade II
Table 28 China Standard Specifications for Sulfide Concentrate Fines 2020 – Grade III
Table 29 China Standard Specifications for Sulfide Concentrate Fines 2020 – Grade IV
Table 30 China Standard Specifications for Sulfide Concentrate Lumps 2020 – Grade I
Table 31 China Standard Specifications for Sulfide Concentrate Lumps 2020 – Grade II
Table 32 China Standard Specifications for Sulfide Concentrate Lumps 2020 – Grade III
Table 33 China Standard Specifications for Sulfide Concentrate Lumps 2020 – Grade IV
Table 34 China Standard Specifications for Sulfide Concentrate Lumps 2020 – Grade V
Table 35 China Standard Specifications for Sulfide Concentrate Lumps 2020 – Grade VI
Table 36 China Standard Specifications for Complex Concentrate Fines 2020 – Grade I
Table 37 China Standard Specifications for Complex Concentrate Fines 2020 – Grade II
Table 38 China Standard Specifications for Complex Concentrate Fines 2020 – Grade III
Table 39 China Standard Specifications for Complex Concentrate Lumps 2020 – Grade I
Table 40 China Standard Specifications for Complex Concentrate Lumps 2020 – Grade II
Table 41 China Standard Specifications for Complex Concentrate Lumps 2020 – Grade III
Table 42 China Standard Specifications for Complex Concentrate Lumps 2020 – Grade IV
Table 43 China Standard Specifications for Complex Concentrate Lumps 2020 – Grade V
Table 44 China Standard Specifications for Complex Concentrate Lumps 2020 – Grade VI
Table 45 China Standard Specifications for Oxide Concentrate Lumps 2020 – Grade I
Table 46 China Standard Specifications for Oxide Concentrate Lumps 2020 – Grade II
Table 47 China Standard Specifications for Oxide Concentrate Lumps 2020 – Grade III
Table 48 China Standard Specifications for Oxide Concentrate Lumps 2020 – Grade IV
Table 49 China Definition of Grades of Antimony Concentrate 2020
Table 50 China Definition of Composition of Antimony Concentrate 2020
Table 51 China Definition of Size of Antimony Concentrate 2020
Table 52 China Antimony Concentrate Volume by Grade 2020 (Metal 10kt)
Table 53 China Antimony Concentrate Volume by Composition 2020 (Metal 10kt)
Table 54 China Antimony Concentrate Volume by Size 2020 (Metal 10kt)
Table 55 China Advantages and Disadvantages of Antimony Concentrate by Grade 2020
Table 56 China Advantages and Disadvantages of Antimony Concentrate by Composition 2020
Table 57 China Advantages and Disadvantages of Antimony Concentrate by Size 2020
Table 58 China Production Methods of Antimony Metal 2020
Table 59 China Advantages and Disadvantages of Production Methods of Antimony Metal 2021
Table 60 China Application Rates of Production Methods of Antimony Metal by Capacity 2020 (10kt)
Table 61 China Application Rates of Production Methods of Antimony Metal by Output 2020 (10kt)
Table 62 China Application Rates of Production Methods of Antimony Metal by Operation 2020 (10kt)
Table 63 China Application Rates of Reduction Smelting of Antimony Metal by Capacity 2020 (10kt)
Table 64 China Application Rates of Reduction Smelting of Antimony Metal by Output 2020 (10kt)
Table 65 China Application Rates of Reduction Smelting of Antimony Metal by Operation 2020 (10kt)
Table 66 China Typical Applied Companies of Production Methods of Antimony Metal 2020
Table 67 China Raw Material Consumption of Blast Furnace Volatilization Reduction of Antimony Metal 2020 (t)
Table 68 China Raw Material Consumption of Open Hearth Furnace Volatilization Reduction of Antimony Metal 2020 (t)
Table 69 China Raw Material Consumption of Alkaline Electrolysis of Antimony Metal 2020 (t)
Table 70 China Standard Specifications for Antimony Metal Sb99.90 2020
Table 71 China Standard Specifications for Antimony Metal Sb99.70 2020
Table 72 China Standard Specifications for Antimony Metal Sb99.65 2020
Table 73 China Standard Specifications for Antimony Metal Sb99.50 2020
Table 74 China Antimony Metal Definition by Major Types 2020
Table 75 China Antimony Metal Market Share by Output 2020 (10kt)
Table 76 China Advantages and Disadvantages of Major Types of Antimony Metal 2020
Table 77 China Applications of Antimony Metal 2020
Table 78 China Value of Antimony Metal Industry by Year 2020 (100m USD)
Table 79 China Value of Antimony Metal Industry by Province 2020 (100m USD)
Table 80 China Employment of Antimony Metal Industry by Province 2020 (Jobs)
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