XRD.
X-ray diffraction systems for determining crystallographic structure, phase identification, and material characterisation in research and industrial laboratories.
Identify crystallographic phases, determine mineral composition, and characterise material structure with X-Ray Diffraction. Used in Nepal's pharmaceutical sector for polymorphism testing, in geology departments for mineral identification, and in cement and ceramics manufacturing for phase analysis and quality control.
Pharmaceutical Polymorphism
Identifying crystal forms of active pharmaceutical ingredients to ensure drug stability and bioavailability.
Geological & Mineralogical Research
Characterising mineral phases in rock and soil samples for Nepal's geology departments and mining sector.
Cement & Ceramics Quality
Phase analysis of clinker, cement, and ceramic materials during manufacturing quality control.
Materials Science Research
Studying thin films, nanomaterials, and advanced material structures in university research laboratories.
- Angular Range (2θ)
- X-ray Source Type & Power
- Detector Resolution
- Minimum Step Size
- Sample Stage Configuration
What is a XRD used for?
X-ray diffraction systems for determining crystallographic structure, phase identification, and material characterisation in research and industrial laboratories.
What are the core applications of a XRD?
Core applications include Pharmaceutical Polymorphism, Geological & Mineralogical Research, Cement & Ceramics Quality, Materials Science Research.
What are the key specifications to consider when selecting a XRD?
Key parameters include angular range (2θ), x-ray source type & power, detector resolution, minimum step size.
Didn't find what you need?
Our technical desk provides direct consultation for instrument selection, method validation, and sourcing tailored to your laboratory application.
Speak to an expert