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Instrumented Compaction Experiments under Varied Climatic Conditions

Ulrich Klemm¹, Bettina Schöne¹, Hermann Svoboda¹, Manfred Fries², Manfred Nebelung²

¹ Technische Universität Dresden, Institute of Material Science, D-01062 Dresden
² Fraunhofer IKTS Dresden, Winterbergstrasse 28, D-01277 Dresden, Germany

received April 29, 2010, received in revised form June 14, 2010, accepted July 26, 2010

Vol. 1, No. 1, Pages 59-66   DOI: 10.4416/JCST2010-00016

Abstract

From empirical observations in industrial practice it is known that compaction behaviour and quality of uniaxial pressed ceramic compacts may be significantly influenced by climatic conditions during granulate storage and processing. At the same time, the type of basic material, added binders and lubricants can play a major role in most cases. In the present study, an attempt was made to reach a better understanding of the interactions between climatic conditions and compaction behaviour of silicon nitride granulates with different binder/lubricant systems by using instrumented compaction experiments. In addition to the continuous measurement of the pressure-density development and the strength of the compacts, parameters are measured which characterize the friction conditions, the total compaction energy and their single parts, the elastic redeformation in axial and radial directions. From the calculation of shear and compressive stresses, conclusions can be drawn regarding acting failure mechanisms and predictions of the expected density distribution can be given. For the examined silicon nitride granulates a deleterious influence of moisture on the whole pressing process and the defect rate of the compacts after storage of granulates at a humidity of more than 50 % before compaction was verified. For this material the changes in compaction behaviour are not reversible after storage at lower humidity.

Keywords

Instrumented compaction, friction, silicon nitride, granulate, climatic conditions

References

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Copyright

© 2010 Göller Verlag

Acknowledgments

The financial support from Sächsisches Staatsministerium für Wissenschaft und Kunst is gratefully acknowledged by the authors.