News

Products

Nano Materials

Micro Material

Lubricating Material

Surfactant

Alloy powder

Selenide

Environmental Material

Rare Earth Material

Insulation

Non-ferrous Metal

Water purification material

Bio Products

Common Chemical

Wear Resistant

Quantum dots

Dispersion

Telluride

wafer butterfly valve

Company News

Development of MRI magnets using MgB2 superconducting strip

2019-04-03
Magnesium diboride superconductors have attracted much attention since they were discovered by Japanese scientists in 2001.

MgB2 superconducting wire strip has the operating temperature that traditional low-temperature superconductor cannot reach, and the processing and preparation cost is also significantly lower than that of traditional low-temperature superconductor such as NbTi, Nb3 Sn, and Bi series and coated high-temperature superconductor.On the other hand, the refrigerating machine cooling superconducting magnet system has the advantages of more convenient operation and maintenance, compact structure, good safety, high efficiency and no need to supplement liquid helium for a long time.Therefore, using MgB2 superconducting strip and refrigerator cooling magnet technology to develop MRI magnets has the double advantages of cost and technology.Magnetic resonance imaging (fmri) is open to high field and two direction, due to cost and operation cost is too high, 3. 0 T above the high field strength of the product is not the mainstream market, open permanent magnet of low field MRI in the small and medium-sized hospital in popularity, but because the field strength can reach 0. 4 T, its performance cannot meet the requirements of all kinds of medical diagnosis, while the use of low temperature superconducting magnet midfielder MRI price drop down, the high sale price is very difficult to be accepted by the market.

Because the MgB2 superconducting material has the characteristics of relatively simple processing process and low cost of raw materials, it has a broad application prospect in the range of 20 ~ 30 K and 1 ~ 2 T, especially after the first MgB2 superconducting material 0.It will first replace the low-temperature superconducting magnet system in the middle of the field. At the same time, with the improvement of material performance and the maturity of technology, it will develop to the high field and occupy the market of high-end products such as 1.5 T, with higher cost performance and huge market potential.