XRD enables nondestructive, accurate quality control in cement production: raw material screening, clinker analysis (e.g., C3S, C2S, free CaO), finished product testing, hydration research, and solid waste co-processing. Dandong Tongda’s TD series offers stable, easy-to-use solutions for green cement manufacturing.
EmailMore
Graphite is key for energy & batteries. Its crystallinity and graphitization affect performance. Dandong Tongda's XRD analyzes natural/synthetic graphite, calculates interlayer spacing & graphitization degree, monitors anode purity for Li-ion batteries, and detects impurities in industrial graphite.
EmailMore
Dandong Tongda’s XRD analyzers solve key pain points in alumina testing – from raw material to final product. They enable rapid phase analysis (α, γ, θ), crystallinity, crystallite size, and impurity detection for high-purity and ultra-fine alumina. Practical, accurate, and scalable, they support process optimization and product quality.
EmailMore
XRD enables precise quality control of talc powder from raw material to finished product – identifying impurities, ensuring safety compliance with global regulations, optimizing processing, and supporting cross-sector applications. Dandong Tongda delivers high-precision, stable XRD solutions trusted worldwide.
EmailMore
Asbestos is a Group 1 carcinogen. Global regulations mandate precise detection. Dandong Tongda’s XRD follows Bragg’s law to identify characteristic peaks, enabling fast, accurate qualitative and quantitative analysis. It offers simple preparation, high reliability, wide applicability, and cost-effectiveness for construction, friction, environmental, and lab applications.
EmailMore
X-ray diffraction (XRD) is widely used in materials science, chemistry, biology, and geology. It enables study of crystal structures, phase changes, chemical analysis, protein structures, mineral composition, drug polymorphs, archaeology, and industrial quality control. XRD is non-destructive, high-precision, and rapid, with improving resolution for in-situ dynamic studies.
EmailMore
X-ray diffractometers are used in materials science, chemical analysis, on-site rapid testing (drugs/explosives), pharmaceuticals (crystal form analysis), and forensics (crystalline materials like minerals, soil, coatings). They enable crystal structure analysis, phase identification, and rapid on-site detection.
EmailMore
X-ray crystallography analyzer reveals atomic structure via Bragg’s Law diffraction. Essential for metals, semiconductors, biomolecules. Maps crystal arrangement, defects, stress. Widely used in R&D, semiconductor quality control, drug design, nanomaterials. Modern units feature faster detectors & simpler software. A vital tool across science & industry.
EmailMore
XAS reveals atomic and electronic structures by measuring element-specific X-ray absorption. It provides key info on valence states and local coordination. Widely used in materials, environmental, and biological sciences. With advanced synchrotron techniques, it enables in-situ studies and dynamic tracking, driving future scientific innovation.
EmailMore
