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Diode laser deposition of microstructurally graded components using gas- and water-atomised powder blends

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNConference contribution/Paperpeer-review

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Diode laser deposition of microstructurally graded components using gas- and water-atomised powder blends. / Pinkerton, A. J.; Syed, W. U. H.; Li, L.
Proceedings of the 23rd International Congress on Applications of Lasers and Electro-optics (ICALEO). Laser Institute of America, 2004.

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNConference contribution/Paperpeer-review

Harvard

Pinkerton, AJ, Syed, WUH & Li, L 2004, Diode laser deposition of microstructurally graded components using gas- and water-atomised powder blends. in Proceedings of the 23rd International Congress on Applications of Lasers and Electro-optics (ICALEO). Laser Institute of America.

APA

Pinkerton, A. J., Syed, W. U. H., & Li, L. (2004). Diode laser deposition of microstructurally graded components using gas- and water-atomised powder blends. In Proceedings of the 23rd International Congress on Applications of Lasers and Electro-optics (ICALEO) Laser Institute of America.

Vancouver

Pinkerton AJ, Syed WUH, Li L. Diode laser deposition of microstructurally graded components using gas- and water-atomised powder blends. In Proceedings of the 23rd International Congress on Applications of Lasers and Electro-optics (ICALEO). Laser Institute of America. 2004

Author

Pinkerton, A. J. ; Syed, W. U. H. ; Li, L. / Diode laser deposition of microstructurally graded components using gas- and water-atomised powder blends. Proceedings of the 23rd International Congress on Applications of Lasers and Electro-optics (ICALEO). Laser Institute of America, 2004.

Bibtex

@inproceedings{81afa741114041b6952c6dfefbbedd6d,
title = "Diode laser deposition of microstructurally graded components using gas- and water-atomised powder blends",
abstract = "Functionally-graded or composite components (FGCs) have been recognised as having immense potential for many industries. So far, deposition of compositionally graded alloys is the only method that has been shown to be a practical way to produce FGCs. In this work, a second way, that allows graded structures of a single material to be formed by direct metal deposition, is investigated. Simple component samples are built using a diode laser direct metal deposition system with a side feed nozzle and blends of water- and gasatomised 316L steel powder in varying proportions. Trends in surface finish, wall integrity and overall wall dimensions are immediately apparent. Further analysis using optical, x-ray diffraction and mechanical testing methods shows that it is possible to produce differences in physical properties such as tensile strength and hardness across a formed component. The system is modelled and the results discussed in terms of the thermal cycle of the build material.",
author = "Pinkerton, {A. J.} and Syed, {W. U. H.} and L. Li",
year = "2004",
language = "English",
booktitle = "Proceedings of the 23rd International Congress on Applications of Lasers and Electro-optics (ICALEO)",
publisher = "Laser Institute of America",

}

RIS

TY - GEN

T1 - Diode laser deposition of microstructurally graded components using gas- and water-atomised powder blends

AU - Pinkerton, A. J.

AU - Syed, W. U. H.

AU - Li, L.

PY - 2004

Y1 - 2004

N2 - Functionally-graded or composite components (FGCs) have been recognised as having immense potential for many industries. So far, deposition of compositionally graded alloys is the only method that has been shown to be a practical way to produce FGCs. In this work, a second way, that allows graded structures of a single material to be formed by direct metal deposition, is investigated. Simple component samples are built using a diode laser direct metal deposition system with a side feed nozzle and blends of water- and gasatomised 316L steel powder in varying proportions. Trends in surface finish, wall integrity and overall wall dimensions are immediately apparent. Further analysis using optical, x-ray diffraction and mechanical testing methods shows that it is possible to produce differences in physical properties such as tensile strength and hardness across a formed component. The system is modelled and the results discussed in terms of the thermal cycle of the build material.

AB - Functionally-graded or composite components (FGCs) have been recognised as having immense potential for many industries. So far, deposition of compositionally graded alloys is the only method that has been shown to be a practical way to produce FGCs. In this work, a second way, that allows graded structures of a single material to be formed by direct metal deposition, is investigated. Simple component samples are built using a diode laser direct metal deposition system with a side feed nozzle and blends of water- and gasatomised 316L steel powder in varying proportions. Trends in surface finish, wall integrity and overall wall dimensions are immediately apparent. Further analysis using optical, x-ray diffraction and mechanical testing methods shows that it is possible to produce differences in physical properties such as tensile strength and hardness across a formed component. The system is modelled and the results discussed in terms of the thermal cycle of the build material.

M3 - Conference contribution/Paper

BT - Proceedings of the 23rd International Congress on Applications of Lasers and Electro-optics (ICALEO)

PB - Laser Institute of America

ER -