DX-2012H DC Hysteresis Graph Test System is a BH Loop tracer to measure the remanence Br, coercive force Hcb, internal magnetism of various ferrites, alnico, neodymium iron boron and samarium cobalt and other permanent magnetic materials. Magnetic performance parameters such as coercive force Hcj and maximum magnetic energy product BHmax, and display BH hysteresis loop and demagnetization curve.
The DX-2012AM permanent magnet magnetic declination measuring instrument is composed of a three-dimensional Helmholtz coil connected to an independent three-component fluxmeter, which constitutes the hardware test part. The three-component test data is converted by a computer to form a complete set of permanent magnets Material quality testing system.
DX-30SST silicon steel sheet iron loss tester adopts a small-scale magnetic permeability meter design (30SST) and refers to the general magnetic permeability meter test standard, through the transfer of the value traced to the source of the opposite ring sample, the effective magnetic circuit length is determined, and the complete air magnetic flux compensation, to meet the direct measurement of a single sample, the test is very convenient and more accurate.
The DXV-220 Vibrating Magnetometer VSM Equipment is an instrument used to measure the magnetism of materials. It vibrates the material and uses the Lorentz force to quickly measure the magnetic field of the material.
DX-320HC Coercimeter is specialized in measuring the coercivity of soft magnets. The measured samples are soft magnets with shapes of strips, bars and sheets, and magnetic components such as relay, electromagnet valve, magnetic head and so on. It can visually evaluate the magnetic change of magnetic components during the workmanship (such as electroplating, annealing and welding); and also be used for magnetic measurement of the magnetic labels, magnetic anti-forgery ink and cemented carbide.
DX-70 Hall Measurement System is used to measure important parameters such as carrier concentration, mobility, resistivity, and Hall coefficient of semiconductor materials. These parameters must be controlled in advance to understand the electrical properties of semiconductor materials. Therefore, the Hall effect test system is an important tool for understanding and researching semiconductor devices and the electrical properties of semiconductor materials.
The magneto-optical Kerr microscopic imaging test system can clearly and intuitively understand the spatial distribution and time evolution of the magnetization state in magnetic materials and devices, and is suitable for testing and product development of magnetic materials and spintronic devices.