2021-2027 China HP graphite electrode market trend-HAILICARBON FACTORY

2021-2027 China HP graphite electrode market trend

2021-2027 China HP graphite electrode market trend

2021-2027 China HP graphite electrode market trend

Graphite electrode is the core component of electric arc furnace, and its supply situation will directly affect the future development of electric arc furnace. Carbon for iron and steel (I)-New electric furnaces are added to drive demand for graphite electrodes, and technological progress and increased concentration help long-term development." In-depth report. Graphite electrodes are made of petroleum coke and needle coke as raw materials, coal tar pitch is used as a binder, and they are calcined , Batching, kneading, pressing, roasting, graphitization, and machining. It is a conductor in the electric arc furnace that releases electric energy in the form of an electric arc to heat and melt the charge, and it is also one of the core components of the electric arc furnace. Therefore, its supply situation will directly affect the future development of the electric arc furnace.

In 2017, the overseas short-process electric arc furnace capacity under construction was 36.762 million tons, and the planned new electric arc furnace capacity from 2018 to 2019 was 88.355 million tons. The domestic steelmaking capacity that has been officially announced to be eliminated for capacity replacement is 40.59 million tons, of which electric furnace smelting The steel production capacity is 20.1 million tons, and the blast furnace-converter steelmaking production capacity is 20.49 million tons; the new electric arc furnace design capacity for capacity replacement is 31.18 million tons.

In 2017, the overseas short-process electric arc furnace capacity under construction was 36.762 million tons, and the planned new electric arc furnace capacity from 2018 to 2019 was 88.355 million tons; the domestic government has officially announced capacity replacement and the newly built electric arc furnace design capacity is 31.18 million tons.

It is estimated that in 2018, 2019, and 2020, the global demand for UHP graphite electrodes may increase by 9.27, 14.19, and 49,200 tons respectively, and the total demand for UHP graphite electrodes may increase by 283,800 tons from 2018 to 2020.

It is estimated that the global demand for UHP graphite electrodes will increase by 9.27, 14.19 and 49,200 tons respectively in 2018, 2019 and 2020, and the total demand for UHP graphite electrodes will increase by 283,800 tons from 2018 to 2020.

Chapter 1 Overview of the Development of High Power Graphite Electrodes

Section 1. Product Overview

1. Graphite electrode

Graphite electrode refers to a kind of resistant material made by using petroleum coke and pitch coke as aggregates and coal tar pitch as binding agent through raw material calcination, crushing and grinding, batching, kneading, molding, roasting, impregnation, graphitization and mechanical processing. The high-temperature graphite conductive material is called artificial graphite electrode (graphite electrode for short), which is different from the natural graphite electrode prepared by using natural graphite as raw material.

Advantages of graphite electrodes

1 The increasing complexity of the mold geometry and the diversification of product applications have led to higher and higher requirements for the discharge accuracy of the spark machine. The advantages of graphite electrodes are easier processing, high removal rate of electrical discharge machining, and low graphite loss. Therefore, some group-based spark machine customers abandon copper electrodes and switch to graphite electrodes. In addition, some special-shaped electrodes cannot be made of copper, but graphite is easier to form, and copper electrodes are heavier and not suitable for processing large electrodes. These factors have caused some group-based spark machine customers to use graphite electrodes.

2 Graphite electrodes are easier to process, and the processing speed is significantly faster than copper electrodes. For example, the use of milling technology to process graphite, the processing speed is 2 to 3 times faster than other metal processing and does not require additional manual processing, while the copper electrode requires manual frustration. Similarly, if a high-speed graphite machining center is used to manufacture electrodes, the speed will be faster and the efficiency will be higher, and there will be no dust problems. In these processes, choosing tools with appropriate hardness and graphite can reduce tool wear and copper electrode damage. If you specifically compare the milling time of graphite electrodes and copper electrodes, graphite electrodes are 67% faster than copper electrodes. In general electrical discharge machining, machining with graphite electrodes is 58% faster than copper electrodes. In this way, the processing time is greatly reduced, and the manufacturing cost is also reduced.

3 The design of the graphite electrode is different from that of the traditional copper electrode. Many mold factories usually have different allowances for roughing and finishing of copper electrodes, while graphite electrodes use almost the same allowances, which reduces the number of CAD/CAM and machine processing. For this reason alone, It is enough to improve the accuracy of the mold cavity to a large extent.

2. High-power graphite electrode

Section 2 Product Use

Section 3 Industry Development Cycle

Chapter 2 Analysis of the Development Environment of the High Power Graphite Electrode Industry

Section 1. Analysis of China's economic development environment

Section 2 China's high-power graphite electrode industry policy environment analysis

1. Industry-related policy analysis

2. Impact of upstream and downstream industrial policies

(1) "The 13th Five-Year Development Plan for Petrochemical and Chemical Industry"

(2) The 13th Five-Year Development Plan for the Iron and Steel Industry

(3) Opinions on the iron and steel industry to resolve excess capacity and achieve development out of difficulties

3. Industry standardization analysis

(1) High-power graphite electrode

(2) Ultra-high power graphite electrode

Section 3 Technical Environment Analysis of China's High Power Graphite Electrode Industry

1. High-power graphite electrode technology process

2. Technical indicators of high-power graphite electrodes

Chapter 3 2015-2019 China's high-power graphite electrode industry market supply and demand analysis

Section 1. Analysis of the supply situation of China's high-power graphite electrode market

1. 2015-2019 China's high-power graphite electrode production analysis

2. Forecast and analysis of China's high-power graphite electrode output from 2021-2027

Section 2 Analysis of China's market demand for high-power graphite electrodes

1. Analysis of China's demand for high-power graphite electrodes from 2015 to 2019

2. Forecast and analysis of China's demand for high-power graphite electrodes from 2021 to 2027

Section 3 China's high-power graphite electrode market price analysis in 2019

Chapter 4 Analysis of Regional Market Demand for High Power Graphite Electrodes

Section 1. East China

Section 2 North China

Section 3 Northeast

Section 4 South China

Section 5 Central China

Section 6 West

Chapter 5 Industrial Chain Analysis of China's High Power Graphite Electrode Industry

Section 1. Overview of the industrial chain of high-power graphite electrode industry

Section 2 Analysis of the development status of the upstream industry of high-power graphite electrodes

1. Petroleum coke

(1) Overview of the development of the petroleum coke industry

(2) Petroleum coke production and supply analysis

(3) Analysis of petroleum coke consumption demand

(4) Analysis of price fluctuation of petroleum coke

2. Needle coke

(1) Overview of the development of needle coke industry

(2) Analysis of production and supply of needle coke

(3) Analysis of Needle Coke Consumption Demand

(4) Forecast of needle coke market prospects

3. Petroleum bitumen

(1) Overview of the development of petroleum asphalt industry

(2) Analysis of petroleum asphalt production and supply

(3) Analysis of petroleum asphalt consumption demand

(4) Analysis of price fluctuation of petroleum asphalt

Section 3 Analysis of the downstream industry development of high-power graphite electrodes

1. The steel industry

(1) Overview of the development of the steel industry

(2) Analysis of the production situation of the iron and steel industry

(3) Analysis of steel market prices

(4) Analysis of the demand situation of the iron and steel industry

2. Industrial silicon

(1) Overview of the development of the industrial silicon industry

(2) Analysis of industrial silicon production

(3) Analysis of industrial silicon demand

(4) Price trend of industrial silicon market

Three, yellow phosphorus

(1) Analysis of Yellow Phosphorus Market Supply Status

(2) Analysis of market demand for yellow phosphorus

(3) Market price trend of yellow phosphorus

(4) Analysis of the development trend

Chapter 6 2015-2019 China's high-power graphite electrode industry import and export data analysis

Section 1. 2015-2019 import analysis of high-power graphite electrodes by industry

1. Analysis of import quantity of high-power graphite electrodes

2. Import amount analysis of high-power graphite electrodes

3. Analysis of the import source of high-power graphite electrodes

Fourth, high-power graphite electrode import price analysis

Section 2 2015-2019 export analysis of high-power graphite electrode industry

1. Analysis of export quantity of high-power graphite electrodes

2. Analysis of export value of high-power graphite electrodes

Three, high-power graphite electrode outlet flow analysis

Fourth, the export price analysis of high-power graphite electrodes

Chapter Seven: Analysis on the Competitiveness of Major Manufacturers of High Power Graphite Electrodes

Section 1. Fangda Carbon New Material Technology Co., Ltd.

1. Analysis of the basic situation of the enterprise

2. High-power graphite electrode products