1. Thermal stress analysis of silicon bulk single crystal during Czochralski growth
- Author
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Hitoshi Uchida, Noriyuki Miyazaki, Tsuyoshi Munakata, Kazumasa Fujioka, and Yuji Sugino
- Subjects
Materials science ,Silicon ,Mineralogy ,chemistry.chemical_element ,Condensed Matter Physics ,Thermal conduction ,Inorganic Chemistry ,Stress (mechanics) ,chemistry ,Materials Chemistry ,Transient (oscillation) ,Time variations ,Composite material ,Dislocation ,Material properties ,Single crystal - Abstract
The thermal stress analysis of a silicon bulk single crystal with a diameter of 6 or 8 inches is performed in the cases of the [001] and [111] pulling directions by using a three-dimensional finite element program developed for calculating thermal stress in a bulk single crystal during the Czochralski growth. Elastic anisotropy and temperature dependence of material properties are taken into account in this program. The temperature distribution and shape of a silicon bulk single crystal which are required for the thermal stress analysis are obtained from a computer program for a transient heat conduction analysis which is specialized for the Czochralski growth. The stress components obtained from the thermal stress analysis are converted into the parameters related with dislocation density. The time variations of these parameters are shown in this paper. The relation between these parameters and the shape of the crystal-melt interface is discussed.
- Published
- 1992