1. The accuracy of Diffractometer is high.
2. The application range of Diffractometer is wide.
3. Diffractometer is easy to operate, convenient and efficient.
1.The single crystal machine adopts PLC control technology.
2.Modular design, accessories plug and play.
3.Electronic lead door interlocking equipment with double protection.
4.Single crystal X-ray tube: a variety of targets can be selected, such as Cu, Mo,etc.
5. Single crystal adopts four-circle concentric technology to ensure that the center of no goniometer remains unchanged.
Advantages:
Continuously adjustable X-ray penetration depth
Capability to observe the distribution of crystal planes with different orientations
Analysis of orientation distribution in samples such as fibers, thin films, and powders
Examination of structural characteristics like lattice distortion and crystallite size
At present, XAFS has been applied in many fields, especially in the field of catalysis and battery materials research, and has become an important accurate characterization method.
When graphite materials are used as negative electrode materials for lithium batteries, one of the necessary conditions for the degree of graphitization.
In 1912, Laue et al. predicted by theory and confirmed by experiment that diffraction can occur when X-ray meets crystal, proving that X-ray has the property of electromagnetic wave, which became the first milestone in X-ray diffraction.
XAFS, as an advanced characterization technique for the local structure analysis of materials, can provide more accurate atomic structure coordination information in the short-range structure range than X-ray crystal diffraction.
X-ray diffraction is a commonly used non-destructive analytical technique that can be used to reveal the crystal structure, chemical composition, and physical properties of substances.
X-ray diffraction, through the X-ray diffraction of a material, the analysis of its diffraction pattern, to obtain the composition of the material, the structure or shape of the atoms or molecules inside the material and other research means.
A material whose properties are dominated by two-dimensional effects, the properties of the material on a two-dimensional scale are different from its properties on a larger scale.
According to the position and intensity changes of in-situ XRD diffraction peaks, the intermediates generated during the cycle can be inferred, and the reaction mechanism can be further derived from these intermediates.
Residual stress has a great impact on the dimensional stability, stress corrosion resistance, fatigue strength, phase change and other properties of materials and components. Its measurement has been widely concerned by academia and industry.
