Stainless Steel Analyzer | Stainless Steel Spectrometer Analyzer

Stainless Steel Analyzer | High-Performance, Flexible Desktop Full-Spectrum Direct-Reading Spectrometer JS-GP891 Model The newly designed desktop spectrometer, JS-GP891, is widely used in metallurgy, foundry, machinery manufacturing, metal products, construction, petrochemical industry, technical supervision, colleges and universities, and research institutions. It features full computer control, full digital spark source, and employs CCD detection technology with a unique vacuum optical chamber to determine the content of non-metallic elements and various alloy elements such as carbon, sulfur, manganese, phosphorus, silicon, chromium, molybdenum, nickel, copper, titanium, tungsten, cobalt, lead, zinc, iron, aluminum, magnesium, rare earth elements, niobium, vanadium, boron, etc., achieving full-spectrum analysis. The measurement results are precise with good reproducibility and long-term stability; Product Configuration and Features 1. The uniquely designed vacuum optical chamber can determine the content of non-metallic elements such as C, P, S, and various alloy elements, with precise measurement results, good reproducibility, and long-term stability. 2. The unique vacuum optical chamber structure design makes the vacuum chamber volume smaller, with evacuation speed less than half of a common spectrometer. Separating the incident window from the vacuum chamber facilitates daily cleaning and maintenance. 3. The optical system automatically performs spectral line scanning and automatic optical path calibration to ensure the accuracy of spectral line reception, eliminating the need for complex peak scanning work. 4. The unique excitation platform and argon gas circuit design greatly reduce the argon gas consumption. The flexible sample holder design meets various shapes and sizes of samples for analysis on-site. 5. Multi-matrix analysis can be achieved without additional hardware. Compared to photoelectric multiplier tube spectrometers, it can significantly reduce customer operating costs and usage range. 6. International advanced jet electrode technology is used. During the excitation state, an argon jet flow is formed around the electrode, ensuring that the excitation point is not in contact with the external air, improving excitation accuracy. 7. Equipped with dedicated spectrometer operation software, fully compatible with Windows systems. Various language versions can be provided according to customer requirements. The software is easy to operate, even for those with no knowledge or operation experience of spectrometers, as they can start using it after a simple knowledge training. 8. High-performance FPGA, DSP, and ARM processors are used, with ultra-high-speed data acquisition and analysis capabilities, and can automatically monitor and control the operation status of the optical chamber temperature, vacuum degree, argon pressure, excitation source, and other modules in real-time. 9. Fully digital plasma excitation source with ultra-stable energy release in an argon environment to excite samples. Full digital excitation pulses ensure ultra-high resolution and high stability output of the excited sample plasma energy, meeting the excitation requirements of various materials. 10. The sample excitation platform uses a copper spark platform base and tungsten material electrodes; the copper spark platform base provides better heat dissipation and rigidity for the excitation platform, while the long service life and high-temperature resistance of the tungsten electrodes also improve the excitation performance. The electrode self-blowing function design creates a favorable environment for excitation and makes cleaning the electrodes on the excitation platform easier. Technical Parameters Analysis Matrix: Fe, Cu, Al, Ni, Ti, Co, Zn, Sn, Mg, Pb, etc. Detection Time: Depends on the type of sample, generally about 25 seconds Optical Structure: Paschen-Runge Circular Full-Spectrum Vacuum Optical System Wavelength Range: 130-800nm Focal Length: 400mm Grating Lines: 3000 lines/mm Detector: High-performance CCD array Electrode: Tungsten material jet electrode Analysis Gap: Sample platform analysis gap: 3.4mm Light Source Type: New adjustable digitalized light source with high-energy pre-ignition technology (HEPS) Excitation Frequency: 100-1000Hz Discharge Current: 400A Vacuum System: Vacuum software automatic control and monitoring Instrument Volume: 860*720*500 Net Weight: 100kg (excluding vacuum system)