Information AboutCrystallinity |
| CATEGORIES ABOUT CRYSTALLINITY | |
| crystals | |
| physical quantity | |
|
Many materials (such as Glass-ceramic s and some Polymer s), can be prepared in such a way as to produce a mixture of crystalline and amorphous regions. In such cases, crystallinity is usually specified as a percentage of the volume of the material that is crystalline. Even within materials that are completely crystalline, however, the degree of structural perfection can vary. For instance, most metallic alloys are crystalline, but they usually comprise many independent crystalline regions ('''grains''' or '''crystallites''') in various orientations separated by '''grain boundaries'''; furthermore, they contain other defects (notably '''dislocations''') that reduce the degree of structural perfection. The most highly perfect crystals are silicon boules produced for semiconductor electronics; these are large single crystals (so they have no grain boundaries), are nearly free of dislocations, and have precisely controlled concentrations of defect atoms. Geologists describe four qualitative levels of crystallinity: Holocrystalline rocks are completely crystalline; hypocrystalline rocks are partially crystalline, with crystals embedded in an amorphous or glassy matrix; hypohyaline are partially glassy; and holohyaline rocks (such as Obsidian ) are completely glassy. Crystallinity can be measured using x-ray diffraction, but calorimetric techniques are also commonly used. |
|
|