| Description |
1 online resource |
| Contents |
1. Scattering experiment and structure functions : particles and the correlation function of small-angle scattering -- 2. Chord length distribution densities of selected elementary geometric figures -- 3. Chord length distributions of infinitely long cylinders -- 4. Particle-to-particle interference : a useful tool -- 5. Scattering patterns and structure functions of Boolean models -- 6. The "dead leaves" model -- 7. Tessellations, fragment particles and puzzles -- 8. Volume fraction of random two-phase samples for a fixed order range L form (r, L) -- 9. Interrelations between the moments of the chord length distributions of random two-phase systems -- 10. Exercises on problems of particle characterization : examples |
| Summary |
Small-angle scattering (SAS) is the premier technique for the characterization of disordered nanoscale particle ensembles. SAS is produced by the particle as a whole and does not depend in any way on the internal crystal structure of the particle. Since the first applications of X-ray scattering in the 1930s, SAS has developed into a standard method in the field of materials science. SAS is a non-destructive method and can be directly applied for solid and liquid samples. Particle and Particle Systems Characterization: Small-Angle Scattering (SAS) Applications is geared to any scientist who mig |
| Notes |
Print version record |
| Subject |
Small-angle scattering.
|
|
Small-angle scattering
|
| Form |
Electronic book
|
| ISBN |
1466581786 |
|
9781466581784 |
|
130612431X |
|
9781306124317 |
|
