-
Categories
-
Pharmaceutical Intermediates
-
Active Pharmaceutical Ingredients
-
Food Additives
- Industrial Coatings
- Agrochemicals
- Dyes and Pigments
- Surfactant
- Flavors and Fragrances
- Chemical Reagents
- Catalyst and Auxiliary
- Natural Products
- Inorganic Chemistry
-
Organic Chemistry
-
Biochemical Engineering
- Analytical Chemistry
- Cosmetic Ingredient
-
Pharmaceutical Intermediates
Promotion
ECHEMI Mall
Wholesale
Weekly Price
Exhibition
News
-
Trade Service
Recently, the end cover of the compressed air production system refrigerator developed and manufactured by metal 3D printing technology has achieved engineering demonstration application
in Daya Bay Nuclear Power Station, the first million-kilowatt-level large-scale commercial nuclear power plant in mainland China.
This marks a breakthrough in the research of 3D printing technology carried out by CGN in the manufacturing and maintenance of spare parts and parts for nuclear power plants
.
It is reported that some equipment in the field of nuclear power has a complex structure, harsh operating environment, and extremely high requirements for mechanical performance, especially some foreign imported equipment, long spare parts procurement cycle, high procurement cost, and 3D printing technology has the advantages of complex structure integration net shape, short manufacturing cycle, high material utilization rate, excellent product performance, which can not only optimize product design schemes, improve equipment manufacturing quality, reduce spare parts procurement costs, but also quickly and efficiently solve the problem of on-site emergency spare parts supply, and optimize the spare parts inventory structure
。
CGN is China's largest nuclear power enterprise and the world's third largest nuclear power enterprise, currently operating 20 nuclear power units and 8 nuclear power units under construction, with a total installed capacity of 31.
47 million kilowatts
.
Qin Yuxin, deputy general manager of CGN Operating Corporation, said that it is foreseeable that the application of 3D printing technology to the manufacture and repair of spare parts and parts for nuclear power plants will bring revolutionary changes
to the design, research and development, manufacturing and repair of future nuclear power equipment, as well as spare parts guarantee and inventory management processes.
Recently, the end cover of the compressed air production system refrigerator developed and manufactured by metal 3D printing technology has achieved engineering demonstration application
in Daya Bay Nuclear Power Station, the first million-kilowatt-level large-scale commercial nuclear power plant in mainland China.
This marks a breakthrough in the research of 3D printing technology carried out by CGN in the manufacturing and maintenance of spare parts and parts for nuclear power plants
.
It is reported that some equipment in the field of nuclear power has a complex structure, harsh operating environment, and extremely high requirements for mechanical performance, especially some foreign imported equipment, long spare parts procurement cycle, high procurement cost, and 3D printing technology has the advantages of complex structure integration net shape, short manufacturing cycle, high material utilization rate, excellent product performance, which can not only optimize product design schemes, improve equipment manufacturing quality, reduce spare parts procurement costs, but also quickly and efficiently solve the problem of on-site emergency spare parts supply, and optimize the spare parts inventory structure
。
CGN is China's largest nuclear power enterprise and the world's third largest nuclear power enterprise, currently operating 20 nuclear power units and 8 nuclear power units under construction, with a total installed capacity of 31.
47 million kilowatts
.
Qin Yuxin, deputy general manager of CGN Operating Corporation, said that it is foreseeable that the application of 3D printing technology to the manufacture and repair of spare parts and parts for nuclear power plants will bring revolutionary changes
to the design, research and development, manufacturing and repair of future nuclear power equipment, as well as spare parts guarantee and inventory management processes.
