The hottest Tianjin high temperature resistant 100

Tianjin high temperature 1000 degree wire and cable wholesale provides after-sales service

Tianjin high temperature 1000 degree teknor apex has the advantage that TPV and PVC have replaced EPDM rubber wire and cable wholesale to provide after-sales service

source network release time:

Tianjin high temperature 1000 degree wire and cable batch. Tianjin Xianke high temperature cable factory is mainly engaged in wires for electrical equipment, anti-corrosion and high temperature resistant wires, high-strength insulated nickel wires, synthetic high-strength nickel wires, all kinds of pure nickel cables and high-temperature resistant cables. "Military market application of special cables without sprinkler devices:

large military enterprises these units and enterprises shoulder the task of scientific research and modern equipment of national high-tech equipment. Most of the wires and cables they need are high-temperature resistant and light-weight fluoroplastic products. The number of special wires and cables they need is also expanding rapidly, and some special products need to be imported. The survey results show that they are equipped with some electronic countermeasure vehicles, In the past, Zhongwang only provided 300km aluminum extruded shielded cables for automobile manufacturers. According to the reflection of a wire and cable enterprise and the collection of external sales information, the demand for military products with which the enterprise has business contact is up to 45000km. However, according to the equipment and technical conditions of the enterprise so far, the enterprise can only meet 5000km, accounting for 11% of the demand

the Chinese conductor procurement package requires a total of 174 tons of NbTi and 35 tons of Nb3Sn superconducting strands, all of which are manufactured by Western superconductor company. After years of efforts, the superconducting strand manufacturing technology successfully passed the certification of ITER organization in 2010. By participating in the ITER program, Western superconductor has established a complete and international quality management and control system, and completed a number of tasks such as product mass production technology research and development, equipment development, testing and quality evaluation. The it conditions for manufacturing are now so good. The performance of Er superconductor strands is superior and stable, and the product performance has been highly affirmed by ITER organization and related peer fields. ITER program has driven the technological progress of superconducting material related industries, provided the manufacturing foundation of superconducting wire for China to establish its own nuclear fusion reactor, and played a positive role in improving China's comprehensive scientific and technological level and comprehensive national strength. In addition, by participating in the ITER program, China has achieved 100 domestic low-temperature superconducting strands, making China's R & D capacity and industrial production capacity of superconducting wires reach the international level

China's high temperature superconducting cables have reached the international advanced level

experts pointed out at the fourth IEEE International Conference on Applied Superconductivity and electromagnetic devices, which concluded yesterday, that whether the national produced superconducting cable can be used in electrical engineering to create a "super conductive" with large current carrying capacity and almost zero resistance depends on the concept of the power sector

Shanghai has the conditions to take the lead in building superconductivity

zongxihua, deputy director of Shanghai Cable Research Institute, said that the application of Shanghai Research Institute superconducting cable in electrical engineering as soon as possible really depends on the concepts of power departments and large power users. In addition, the life cycle assessment of Shanghai Research Institute superconducting cable should be carried out as soon as possible to prepare for its application in the electric demonstration project

according to the introduction, the "35 kV high temperature superconducting cable system engineering application and demonstration research" project led by Shanghai Cable Research Institute has passed the acceptance of the Municipal Science and Technology Commission. It is the first cold insulated superconducting demonstration line using the second generation high temperature superconducting tape in China and the third in the world. It has independently supplied power to the electric arc furnace in Baosteel's No. 2 Steelmaking Plant and has been in stable operation for 2 years. In July this year, the appraisal report issued by the China Electricity Council showed that the product reached the international advanced level, and some key parameters reached the international level

this is an independent power supply system, which does not belong to electrical engineering. In order to promote the industrialization process, with the support of the Shanghai Municipal Development and Reform Commission, Shanghai Cable Research Institute, together with shangchuang superconductor, Shanghai superconductor and other companies, has established a pilot base of superconducting cables in Baoshan District. It is hoped that next year, the demonstration projects for electricity will be promoted jointly with Shanghai power sector and large power users

Cai chuanbing said that superconducting cables are suitable for high-density power consumption areas in big cities, and Shanghai has the conditions to take the lead in building the first high-temperature superconducting cable line connected to electricity in the country. In the process of building a science and technology innovation center with global influence, experts at the meeting suggested that Shanghai provide greater engineering application space for superconducting cables, superconducting motors and other products, and occupy the commanding height in the industrialization of high temperature superconducting technology