Functionally graded bioactive glass coatings on bioinert metallic substrates were produced by using continuous-wave (CW) laser irradiation. The aim is to achieve strong adhesion on the substrates and high bioactivity on the top surface of a coating material for load-bearing implants in biomedical applications. The morphology and microstructure of the bioactive glass from the laser coating process were investigated as functions of processing parameters. Laser sintering mechanisms were discussed with respect to the resulting morphology and microstructure. It has been shown that double layer laser coating results in a dense bond coat layer and a porous top coat layer with lower degree of crystallinity than an enameling coating sample. The dense bond coat strongly attached to the titanium substrate with a ten microns wide mixed interfacial layer. A highly bioactive porous structure of the top coat layer is beneficial for early formation of a bone-bonding HCA layer. The numerical model developed in this work also allows for prediction of porosity and crystallinity in top coat layers of bioactive glass developed through laser induced sintering and crystallization.
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ASME 2015 International Manufacturing Science and Engineering Conference
June 8–12, 2015
Charlotte, North Carolina, USA
Conference Sponsors:
- Manufacturing Engineering Division
ISBN:
978-0-7918-5682-6
PROCEEDINGS PAPER
Laser Induced Porosity and Crystallinity Modification of a Bioactive Glass Coating on Titanium Substrates
Panjawat Kongsuwan,
Panjawat Kongsuwan
Columbia University, New York, NY
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Grant B. Brandal,
Grant B. Brandal
Columbia University, New York, NY
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Y. Lawrence Yao
Y. Lawrence Yao
Columbia University, New York, NY
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Panjawat Kongsuwan
Columbia University, New York, NY
Grant B. Brandal
Columbia University, New York, NY
Y. Lawrence Yao
Columbia University, New York, NY
Paper No:
MSEC2015-9272, V001T02A016; 10 pages
Published Online:
September 25, 2015
Citation
Kongsuwan, P, Brandal, GB, & Yao, YL. "Laser Induced Porosity and Crystallinity Modification of a Bioactive Glass Coating on Titanium Substrates." Proceedings of the ASME 2015 International Manufacturing Science and Engineering Conference. Volume 1: Processing. Charlotte, North Carolina, USA. June 8–12, 2015. V001T02A016. ASME. https://doi.org/10.1115/MSEC2015-9272
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