DXSS-2020 Magnetoresistive Strain Gauge Measurement System

The DXSS-2020 Magnetostrictive Material Multi-Parameter Measurement System is a device that measures the change in characteristic parameters of super magnetostrictive materials with the applied magnetic field. The system consists of electromagnets, electromagnet constant current power supplies, magnetic field measurement units, strain measurement units, data acquisition systems, computers, and laser printers, etc.

The DXSS-2020 Magnetic-Induced Stretch Material Multi-Parameter Measurement System is a device that measures how the characteristic parameters of supermagnetic-induced stretch materials vary with the applied magnetic field. The system consists of electromagnets, electromagnet constant current power supplies, magnetic field measurement units, strain measurement units, data acquisition systems, computers, and laser printers, etc. It can measure the material's DC λdc-Hdc curve and derive its differential curve.

3. System Parameter Description

3.1 The direct current magnetic field is divided into seven full-scale ranges, namely 0.5 kOe, 1 kOe, 2 kOe, 4 kOe, 8 kOe, 1 kOe, and 32 kOe, with a resolution up to 0.1Oe.

3.2 The DC extensometer is divided into 9 full-scale ranges, ranging from 32,000με to 320.00με, with increments of 16,000με, 8,000με, 4,000.0με, 3,200.0με, 1,600.0με, 800.0με, 400.0με, and 320.00με. The resolution is up to 0.1με (practical resolution: 1με).

3.3 The DXWD-130 electromagnetic magnet is a dual-yoke, dual-air-gap adjustable electromagnetic magnet with a pole face diameter of Ø60mm. When the air gap is 80mm, the magnetic field is greater than 6.0kOe; when the air gap is 10mm, the magnetic field is greater than 22kOe.

3.4 Input voltage for the electromagnetic power supply is a three-phase three-wire system, with line voltage of 380V, output DC voltage of 450V, and output power of 3.7kW. When the output current exceeds half of the current, its output current stability is better than 5×10^-3。

4. Complete Machine Functionality

When the block diagram of the overall principle of the magnetostrictive material multi-parameter measurement system is operated together with the upper-level computer and its required accessories, the entire unit has the following functions:

1) Can automatically measure the relationship between the change in the linear magneticstriction (λdc) of the sample at room temperature and the external magnetic field (Hext), and draw the relevant characteristic curves and calculate the relevant characteristic parameters.

2) Upon normal software exit, the working state of the user interface is automatically saved.

About Us

Xiamen Yinde Xingmagnet Technology Co., Ltd. was established in 2008, nestled in the beautiful city of Xiamen, Fujian Province, China, which is also a major international seaport. Yinde Xingmagnet is a high-tech enterprise with comprehensive services in the international magnetic measurement industry. The company boasts a team of experienced technical personnel in the magnetic measurement field and collaborates with universities and research institutions at home and abroad. We provide global clients with precise measurement equipment systems and excellent after-sales service.

Our primary equipment and measurement systems developed by the company include: digital teslameter/gaussmeter, fluxmeter, fluxgate meter, Helmhotz coil, electromagnet, nuclear magnetic resonance permanent magnet, precision current source, phase-locked amplifier, weak magnetic shielding system, AC/DC magnetic field control system, new energy meter magnetic measurement system, multi-dimensional magnetic field testing system, permanent magnet material measurement system, vibration sample magnetometer, etc.

Manufacturing Facility

Berlin Trade Show

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