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Labmate XRD Diffractometer features an extensive range of X-ray tubes, including options such as glass, ceramic, ripple ceramic, etc. Boasts adjustable scanning ranges and speeds, accommodating a wide range of sample types. Incorporated with an X-ray generator control system, to monitor X-ray parameters ensuring accuracy and reliability. Combined with a goniometer structure, for seamless customization of sample positioning and orientation. Our instrument can handle different diffraction ranges, for studying crystal structures with precision and speed.
Frequently Asked Questions
What is an XRD Diffractometer?
+An XRD Diffractometer is an apparatus designed to investigate the structure of crystalline materials.
How does an XRD Diffractometer work?
+It utilizes X-ray diffraction to measure the angles and intensities of diffracted X-rays, enabling the determination of crystallographic structure of sample.
What types of samples can be analyzed using XRD diffractometer?
+It can analyze a variety of samples such as metals, alloys, polymers, ceramics, minerals and pharmaceuticals.
Can XRD Diffractometer be used for quantitative analysis?
+It is commonly used for quantitative phase analysis.
Can XRD Diffractometer be used for identifying unknown materials?
+It is used to identify unknown crystalline materials by comparing their diffraction patterns to a database of known materials.
What is the difference between XRD Diffractometer and Electron Microscopy?
+XRD Diffractometer provides information about the crystallographic structure of materials whereas Electron Microscopy provides detailed images of the surface morphology of sample.
Is XRD Diffractometer analysis affected by temperature?
+Temperature influences the crystal structure and causes change in peak positions due to thermal expansion or contraction.
Can XRD Diffractometer be used for structural analysis of nanomaterials?
+It is commonly used for analyzing nanomaterials, where peak broadening is used to estimate the nanocrystal size and identify structural defects.
Can XRD Diffractometer be used to study phase transitions in materials?
+It is used to study phase transitions by observing changes in the diffraction pattern.
What is meant by Peak Deconvolution in XRD Diffractometer analysis?
+It refers to the process of separating overlapping diffraction peaks to obtain accurate information about the phases and crystallographic properties of material.