FCT Online requires Javascript. Please enable Javascript in your browser by following these steps:Firefox 2.0 (Windows)

In your browser's Tools menu, click Options.

Click the Content tab.

Check the box next to Enable JavaScript.

Click OK.

Firefox 2.0 (Mac)

In your browser's Firefox menu, click Preferences.

Click the Content tab.

Check the box next to Enable JavaScript.

Click OK.

Internet Explorer 6+ and 7.0 (Windows)

In your browser's Tools menu, click Internet Options.

Click the Security tab.

Click the Custom Level button.

Scroll down until you find the section called Scripting.

In the Scripting section, click the Enable button under Active Scripting.

Click OK, then OK again.

technical report

Effects of Hydrogen Gas at 1450°C on Select Fibrous Alumina Insulation Products

by Philip Hamling
President, ZIRCAR Ceramics, Inc.
Florida, NY

Multiple types of fibrous alumina insulation materials were tested to determine their stability in hydrogen gas. Silica bonded types have been known to give superior performance in oxidizing and neutral environments. Alumina bonded types have classically been used as thermal insulation, fixtures and setters in applications where reduction by aggressive furnace atmospheres is encountered. One such aggressive reducing atmosphere is hydrogen, a common cover gas in furnaces for sintering powder metal parts. In hydrogen gas atmospheres, silica – a common binder that imparts high temperature stability and increased mechanical strength – is attacked, dissociates and volatilizes resulting in premature failure of the refractory.

Test Method

Cubes of insulation, roughly one inch per side, were measured and weighed. They were fired at 1450°C in a model 1725 HTF box furnace manufactured by CM Furnaces, Inc. The furnace was purged with 15scfh hydrogen gas with a dew point of <40°C. It was heated at a rate of 200°C / hour with soak times of 1, 2, 10 and 50 hours. The samples were removed after each soak, measured and weighed. Weight loss and thickness shrinkage were calculated using experimental data. Shrinkage in the length and width directions were averaged to obtain the data displayed. The materials tested are described in the following table

Conclusions

Premium (ZAL-45AA) and special (ZAL-60AA) grade fibrous alumina insulation materials appear best suited for use as thermal insulation, fixtures and setters in furnaces with hydrogen atmospheres as they exhibited the least weight loss and thermal shrinkage of all specimens tested.

Alumina bonded materials (ZAL-15AA, ECO-20AA, ZAL-45AA and ZAL-60AA) showed significantly less weight loss after exposure to hydrogen gas at 1450°C than did the silica bonded types tested.

Silica bonded materials (SALI and AL 25/1700) exhibited significant weight loss after testing at 1450°C in hydrogen.

Thermal shrinkage is inversely proportional to density, independent of the bond type.

Acknowledgment

The data presented in this article were collected by CM Furnaces, Inc., cmfurnaces , and provided to ZIRCAR Ceramics, Inc. by its director of research and development, Donald T. Whychell Sr., dwhychell@cmfurnaces.com.

ISSUE MAIN >