According to the analysis of the Organisation for Cooperation and Development (OECD), investment in steel-related facilities is increasing in Asia and the Middle East, so global steel production is expected to continue to grow in the coming years. The OECD believes that global steel production capacity will increase by about 40 million tons in 2019. It is worth mentioning that the Middle East is growing into a new steel supply area. With the current strong investment, its steelmaking capacity will grow rapidly. By 2019, its total steelmaking capacity will increase by 30 million tons. India's steelmaking capacity has also increased rapidly in recent years. In 2016, its domestic steelmaking capacity was 125.8 million tons, which is a huge increase compared with 5.6 million tons 10 years ago. Currently, India is building a 250-tonne converter in Orissa, which is just one of the many steel investments that India is making. However, the slow increase in domestic steel demand has limited its capacity release to some extent. Indonesia is expected to operate its “greenfield†steel project this year. It is expected that by the end of this year, Indonesian Ganggang Group (GunungSteel) will build an electric arc furnace with an annual capacity of 500,000 tons in North Sumatra. In addition, the CIS region will also add 4 million tons of steelmaking capacity this year, including an electric arc furnace with an annual production capacity of 600,000 tons.
High strength, high rigidity, high stiffness, light weight: density 280-3.05g/cm, low energy consumption, good thermal shock resistance, low coefficient of thermal expansion, compared to metal parts, 3D printed silicon carbide ceramic parts can extend their service life by more than one time, reduce energy consumption, and meet extreme working conditions.
Energy And Power Field
In the field of energy power, the improvement of efficiency and the extension of life span have very demanding requirements on material performance and structural design. Silicon carbide ceramic materials outperform most metallic materials in terms of specific stiffness, thermal shock resistance, friction and wear resistance, and thermal conductivity, but they are difficult to machine and cannot be used on a large scale.
FLK has achieved a breakthrough in the manufacturing technology of integrated complex components made of silicon carbide ceramics by using additive manufacturing technology.High strength, high rigidity, high stiffness, light weight: density 280-3.05g/cm, low energy consumption, good thermal shock resistance, low coefficient of thermal expansion, compared to metal parts, 3D printed silicon carbide ceramic parts can extend their service life by more than one time, reduce energy consumption, and meet extreme working conditions.
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