Lecture on Partical Analysis - Hands-on Course -
- Introduction
- Particle Size Distribution Dependent on Principle of Measurement
- Measurement Range
- Resolution
- Calibration
- Reproducibility of Measurement
- Appropriate Concentration of Measurement Target
- Factors Determining Measurement Result
- Transferability of Particle Size Distribution Data Between Manufacturers and Models
- Particle Shape Problems
- Subjective Particle Size Distribution
- Measurement of High-Concentration Samples
- Fraunhofer Diffraction Theory and Mie Scattering Theory
- Utilization of Diffracted/Scattered Light Intensity Distribution Data
- Utilization of Diffracted/Scattered Light Intensity Distribution Data - Part 2
- Fig. 2 Average Particle Size: Approx. 78 µm
- Fig. 3 Average Particle Size: Approx. 18 µm
- Fig. 4 Average Particle Size: Approx. 2 µm
- Fig. 5 Average Particle Size: Approx. 1 µm
- Utilization of Diffracted/Scattered Light Intensity Distribution Data - Part 3
- Fig. 1 Changes in Light Intensity Distribution Data of Diffracted/Scattered Light Due to Concentration
- Fig. 1 Changes in Light Intensity Distribution Data of Diffracted/Scattered Light Due to Concentration
- Volume Standard and Number Standard in Particle Size Distribution
- Dry Measurement
- Average Values (Average Particle Size)
- Standard Deviation
- Arbitrary % Particle Size and Median Diameter
- Particle Size Distribution Calculation Method
- Measurement Time and Monitoring Function
- Samples That Can and Cannot Be Measured
- Sample Amount
- Dry Measurement of Magnetic Particles
- Measurement of Acicular/Fibrous Particles
- Utilization of Diffracted/Scattered Light Intensity Distribution Data - Part 4