Ink Jet Deposition of Ceramic Suspensions: Modeling and Experiments of Droplet Formation

N. Reis; B. Derby

doi:10.1557/PROC-624-65

Abstract

We have successfully printed green ceramic objects from slurries of Al2O3 dispersed in paraffin wax using a commercial ink-jet printer developed for pattern making (Sanders Prototype MM6PRO). Concentrated suspensions are generally more viscous than the fluids normally passed through ink jet heads. This may alter the response of the printing system to its process parameters, e.g. driving voltage and frequency. We have explored the influence of fluid properties on the ink jet behaviour using Computational Fluid Dynamics (CFD) modelling and a parallel experimental study to determine the optimum printing conditions for particulate suspensions.

References

REFERENCES

1 Reis, N., Seerden, K.A.M., Grant, P.S., Derby, B., and Evans, J.R.G., presented at the IoM Annual Ceramics Convention, 10-11 April 2000, Cirencester, U.K.Google Scholar

2 Derby, B., Reis, N., Seerden, K.A.M., Grant, P.S., and Evans, J.R.G., in this issue, MRS Spring Meeting 2000, San Francisco, U.S.A.Google Scholar

3 Reis, N., Seerden, K.A.M., Derby, B., Halloran, J. W. and Evans, J.R.G., Mater. Res. Soc. Symp. Proc., 542, p. 147–152 (1999).Google Scholar

4 Fromm, J. E., IBM J. Res. Develop., 28, p. 322–333 (1984).Google Scholar

5 Badie, R. and Lange, D. F. de, Proc. R. Soc. Lond. A, 453, p. 2573–2581 (1997).Google Scholar

6 Dijksman, J. F., Flow Turbul, Combust. 61, p. 211–237 (1998).Google Scholar

7 Adams, R. L. and Roy, J., ASME J. Appl. Mech. 53 [1], p. 193–197 (1986).Google Scholar

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Stasiak, James W. 2017. Handbook of Industrial Inkjet Printing. p. 661.

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Ink Jet Deposition of Ceramic Suspensions: Modeling and Experiments of Droplet Formation

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Ink Jet Deposition of Ceramic Suspensions: Modeling and Experiments of Droplet Formation

Abstract

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References

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