Directly related to the large temperature differential comes the benefit of low thermal expansion. Because borosilicate glass doesn’t expand like ordinary glass, there is a smoother transition between temperatures as well as the ability to withstand different temperatures at the same time. Borosilicate ...
Many electron micrographs were obtained for borosilicate glass which had been subjected to chemical attack after heat-treatment at various temperatures and durations in order to study changes in internal structure, the so-called "phase s... M Watanabe,H Noake,T Aiba - 《Journal of the American ...
with a coarser layer of borosilicate glass microfibers formed on the outside of the fine layer. As the aerosol is captured in the fine layer, gradually they start to pool together and as the droplets form they start to move partly by capillary action and partly ...
For a numerical example, let's say the outer part of a 2"-thick mirror is one degree Celcius (1.8 deg F) cooler than the rest of the mirror. The coefficient of thermal expansion of Pyrex/Supremax (borosilicate glass) is 3.25*10^-6 per degree C. If we assume that the front of the...
Bermejo, Why neutron guides may end up breaking down? Some results on the macroscopic behaviour of alkali- borosilicate glass support plates under neutron irradiation, Nucl. Instr. Meth. B 358 (2015) 179-187.Boffy, R.; Kreuz, M.; Beaucour, J.; Ko篓 ster, U.; Bermejo, F.J. Why ...