Recommendations for desktop diffractometer maintenance: daily environment/sample/inspection care, periodic cleaning/calibration/X-ray tube/software upkeep, plus proper operation, timely repairs, and record-keeping to ensure stability and longevity.

X-ray diffraction (XRD) is a key non-destructive technique for identifying and characterizing new materials. By analyzing diffraction patterns from crystal lattices, it determines phase composition, crystal structure, and microstructure. Critical for developing catalysts, batteries, and biomaterials, XRD enables precise analysis of thin films and structural changes, driving innovation across materials science.

Desktop XRD data analysis requires steps like preprocessing, peak identification, and parameter analysis to extract crystal structure info from complex patterns, necessitating expert knowledge and ongoing skill updates

Benchtop X-ray Diffractometers are vital for quality control, providing non-destructive, precise analysis of material crystal structure, composition, and stress. They enable defect detection, process optimization, and failure analysis across R&D and production, enhancing efficiency, reliability, and compliance.

This guide details essential maintenance for benchtop XRD systems, covering X-ray generation, optics, detectors, and safety. Regular upkeep ensures accuracy, prevents failures, and extends equipment life. The TDM-20 Benchtop XRD from Dandong Tongda Technology meets all your analytical needs.

The TDM-20 benchtop XRD redefines performance standards with a groundbreaking 1200W power core—double the mainstream level. This enables faster, more precise analysis from R&D to QC in pharmaceuticals, materials science, mining, and food safety.

It uses the X-ray principle to carry out qualitative or quantitative analysis and crystal structure analysis of polycrystalline materials such as powder samples and metal samples.