Hostname: page-component-cd9895bd7-gbm5v Total loading time: 0 Render date: 2024-12-23T08:54:46.847Z Has data issue: false hasContentIssue false

Erratum

Published online by Cambridge University Press:  13 January 2016

Abstract

Type
Erratum
Copyright
Copyright © Materials Research Society 2016 

Microstructure design for fast oxygen conduction – ERRATUM

Dilpuneet S. Aidhy and William J. Weber

doi: 10.1557/jmr.2015.327, Published by Materials Research Society with Cambridge University Press, 11 November 2015.

Processing of Al–12Si–TNM composites by selective laser melting and evaluation of compressive and wear properties – ERRATUM

Konda G. Prashanth, Sergio Scudino, Anil K. Chaubey, Lukas Löber, Pei Wang, Hooyar Attar, Frank P. Schimansky, Florian Pyczak, and Jürgen Eckert.

doi: 10.1557/jmr.2015.326, Published by Materials Research Society with Cambridge University Press, 12 November 2015.

In Aidhy, Reference Aidhy and Weber1 there should have been a footnote for co-author William Weber as follows:

This author was an editor of this journal during the review and decision stage. For the JMR policy on review and publication of manuscripts authored by editors, please refer to http://www.mrs.org/jmr-editor-manuscripts/.

In Prashanth, Reference Prashanth, Scudino, Chaubey, Löber, Wang, Attar, Schimansky, Pyczak and Eckert2 there should have been a footnote for co-author Jürgen Eckert as follows:

This author was an editor of this journal during the review and decision stage. For the JMR policy on review and publication of manuscripts authored by editors, please refer to http://www.mrs.org/jmr-editor-manuscripts/.

The editors regret these attribution errors, and the originals have since been corrected.

References

REFERENCES

Aidhy, D. A. and Weber, J. W.. Microstructure design for fast oxygen conduction. J Mater. Res. 31(1), 216 (2016).Google Scholar
Prashanth, K. G., Scudino, S., Chaubey, A. K., Löber, L., Wang, P., Attar, H., Schimansky, F. P., Pyczak, F., and Eckert, J.. Processing of Al–12Si–TNM composites by selective laser melting and evaluation of compressive and wear properties. J Mater. Res. 31(1), 5565 (2016).Google Scholar