Laser Processing of Compacted Hydroxyapatite Samples

Standard

Laser Processing of Compacted Hydroxyapatite Samples. / Bulina, N.; Baev, S. G.; Makarova, S. et al.

In: Chemistry for Sustainable Development, Vol. 28, No. 1, 2020, p. 1-7.

Research output: Contribution to journal › Article › peer-review

Harvard

Bulina, N, Baev, SG, Makarova, S, Titkov, A, Bessmeltsev, VP & Lyakhov, NZ 2020, 'Laser Processing of Compacted Hydroxyapatite Samples', Chemistry for Sustainable Development, vol. 28, no. 1, pp. 1-7. https://doi.org/10.15372/CSD2020195

APA

Bulina, N., Baev, S. G., Makarova, S., Titkov, A., Bessmeltsev, V. P., & Lyakhov, N. Z. (2020). Laser Processing of Compacted Hydroxyapatite Samples. Chemistry for Sustainable Development, 28(1), 1-7. https://doi.org/10.15372/CSD2020195

Vancouver

Bulina N, Baev SG, Makarova S, Titkov A, Bessmeltsev VP, Lyakhov NZ. Laser Processing of Compacted Hydroxyapatite Samples. Chemistry for Sustainable Development. 2020;28(1):1-7. doi: 10.15372/CSD2020195

Author

Bulina, N. ; Baev, S. G. ; Makarova, S. et al. / Laser Processing of Compacted Hydroxyapatite Samples. In: Chemistry for Sustainable Development. 2020 ; Vol. 28, No. 1. pp. 1-7.

BibTeX

@article{fad54c138c9d4f118c851ff3407149bf,

title = "Laser Processing of Compacted Hydroxyapatite Samples",

abstract = "The structure and morphology of pellets from nanoscale hydroxyapatite after CO 2 laser beam treatment are studied. It is shown that the use of a compacted layer of the material under treatment allows a significant reduction of the diameter of the laser spot. The effects of scanning speed and density of a hydroxyapatite pellet on the structure and morphology of the treated surface are investigated. It is shown that the congruent melting of the material is observed in the case of the high speed of laser beam movement. A decrease in the speed leads to the transition to sintering mode. The optimal values of the density and thickness of the sintered material are determined, which are to be kept during 3D printing of products from hydroxyapatite by means of selective laser melting.",

keywords = "selective laser melting, sintering, hydroxyapatite",

author = "N. Bulina and Baev, {S. G.} and S. Makarova and A. Titkov and Bessmeltsev, {V. P.} and Lyakhov, {N. Z.}",

year = "2020",

doi = "10.15372/CSD2020195",

language = "English",

volume = "28",

pages = "1--7",

journal = "Chemistry for Sustainable Development",

issn = "1817-1818",

publisher = "ФГУП {"}Издательство СО РАН{"}",

number = "1",

}

RIS

TY - JOUR

T1 - Laser Processing of Compacted Hydroxyapatite Samples

AU - Bulina, N.

AU - Baev, S. G.

AU - Makarova, S.

AU - Titkov, A.

AU - Bessmeltsev, V. P.

AU - Lyakhov, N. Z.

PY - 2020

Y1 - 2020

N2 - The structure and morphology of pellets from nanoscale hydroxyapatite after CO 2 laser beam treatment are studied. It is shown that the use of a compacted layer of the material under treatment allows a significant reduction of the diameter of the laser spot. The effects of scanning speed and density of a hydroxyapatite pellet on the structure and morphology of the treated surface are investigated. It is shown that the congruent melting of the material is observed in the case of the high speed of laser beam movement. A decrease in the speed leads to the transition to sintering mode. The optimal values of the density and thickness of the sintered material are determined, which are to be kept during 3D printing of products from hydroxyapatite by means of selective laser melting.

AB - The structure and morphology of pellets from nanoscale hydroxyapatite after CO 2 laser beam treatment are studied. It is shown that the use of a compacted layer of the material under treatment allows a significant reduction of the diameter of the laser spot. The effects of scanning speed and density of a hydroxyapatite pellet on the structure and morphology of the treated surface are investigated. It is shown that the congruent melting of the material is observed in the case of the high speed of laser beam movement. A decrease in the speed leads to the transition to sintering mode. The optimal values of the density and thickness of the sintered material are determined, which are to be kept during 3D printing of products from hydroxyapatite by means of selective laser melting.

KW - selective laser melting

KW - sintering

KW - hydroxyapatite

U2 - 10.15372/CSD2020195

DO - 10.15372/CSD2020195

M3 - Article

VL - 28

SP - 1

EP - 7

JO - Chemistry for Sustainable Development

JF - Chemistry for Sustainable Development

SN - 1817-1818

IS - 1

ER -

ID: 26097560