Strengthening of alumina by a low thermal expansion glass at surface

The linear thermal expansion coefficient, a, has been measured from 2 to 32 K and from 55 to 90 K for a machineable glass-ceramic, an "ultra-low expansion" titanium silicate glass (Coming ULE), and ceramic glasses (Cer-Vit and Zerodur), and for glassy carbon, a is negative for the ultra-low expansio

We measured the expansion coecient of glass-®bre reinforced nylon as a function of temperature between 4.2 and 300 K. The linear thermal expansion is about half that of un®lled nylon throughout the temperatures investigated. The thermal conductivity in the 0.2±5 K temperature range is very close to

We measured the expansion coefficient of Torlon 4203 (polyamide-imide) as a function of temperature between 4.2 and 295 K. The thermal expansion is lower than that of most polymers. The thermal conductivity k between 0.1 and 5 K was also measured: below 1 K, a quadratic dependence on temperature of