Damage mechanism of Al2O3 ceramic coatings irradiated by CO2 CW laser

Dong Rong Li; Fu Chi Wang; Zhuang Ma; Quan Sheng Wang; Yan Bo Liu

Damage mechanism of Al₂O₃ ceramic coatings irradiated by CO₂ CW laser

Dong Rong Li^*, Fu Chi Wang, Zhuang Ma, Quan Sheng Wang, Yan Bo Liu

^*Corresponding author for this work

School of Material Science and Engineering

Beijing Institute of Technology

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

3 Citations (Scopus)

Abstract

Rules and mechanism of damage in Al₂O₃ coatings irradiated by CO₂ CW laser are studied in order to improve the ability of parts of equipment standing against the high power laser. Al₂O₃ coatings were sprayed by air plasma spray (APS) on the 45^# steel substrate, and then were irradiated by CO₂ CW laser from 795 W/cm² to 31830 W/cm². As the output power of the laser is increasing, its porosity is increasing and cracks are appearing and spreading quickly. And also the phase will transform from γ-Al₂O₃ to α-Al₂O₃ in the damaged areas. When the energy density is 17507 W/cm², the coatings are destroyed completely. The thermal infection field on substrate is rather small. The laser energy is depleted by the phase transformation and cracks in Al₂O₃ coatings during the laser thermal shock.

Original language	English
Pages (from-to)	227-231
Number of pages	5
Journal	Journal of Beijing Institute of Technology (English Edition)
Volume	17
Issue number	2
Publication status	Published - Jun 2008

Keywords

AlO coatings
CW laser
Demolishment
Plasma spray

Cite this

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title = "Damage mechanism of Al2O3 ceramic coatings irradiated by CO2 CW laser",

abstract = "Rules and mechanism of damage in Al2O3 coatings irradiated by CO2 CW laser are studied in order to improve the ability of parts of equipment standing against the high power laser. Al2O3 coatings were sprayed by air plasma spray (APS) on the 45# steel substrate, and then were irradiated by CO2 CW laser from 795 W/cm2 to 31830 W/cm2. As the output power of the laser is increasing, its porosity is increasing and cracks are appearing and spreading quickly. And also the phase will transform from γ-Al2O3 to α-Al2O3 in the damaged areas. When the energy density is 17507 W/cm2, the coatings are destroyed completely. The thermal infection field on substrate is rather small. The laser energy is depleted by the phase transformation and cracks in Al2O3 coatings during the laser thermal shock.",

keywords = "AlO coatings, CW laser, Demolishment, Plasma spray",

author = "Li, {Dong Rong} and Wang, {Fu Chi} and Zhuang Ma and Wang, {Quan Sheng} and Liu, {Yan Bo}",

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TY - JOUR

T1 - Damage mechanism of Al2O3 ceramic coatings irradiated by CO2 CW laser

AU - Li, Dong Rong

AU - Wang, Fu Chi

AU - Ma, Zhuang

AU - Wang, Quan Sheng

AU - Liu, Yan Bo

PY - 2008/6

Y1 - 2008/6

N2 - Rules and mechanism of damage in Al2O3 coatings irradiated by CO2 CW laser are studied in order to improve the ability of parts of equipment standing against the high power laser. Al2O3 coatings were sprayed by air plasma spray (APS) on the 45# steel substrate, and then were irradiated by CO2 CW laser from 795 W/cm2 to 31830 W/cm2. As the output power of the laser is increasing, its porosity is increasing and cracks are appearing and spreading quickly. And also the phase will transform from γ-Al2O3 to α-Al2O3 in the damaged areas. When the energy density is 17507 W/cm2, the coatings are destroyed completely. The thermal infection field on substrate is rather small. The laser energy is depleted by the phase transformation and cracks in Al2O3 coatings during the laser thermal shock.

AB - Rules and mechanism of damage in Al2O3 coatings irradiated by CO2 CW laser are studied in order to improve the ability of parts of equipment standing against the high power laser. Al2O3 coatings were sprayed by air plasma spray (APS) on the 45# steel substrate, and then were irradiated by CO2 CW laser from 795 W/cm2 to 31830 W/cm2. As the output power of the laser is increasing, its porosity is increasing and cracks are appearing and spreading quickly. And also the phase will transform from γ-Al2O3 to α-Al2O3 in the damaged areas. When the energy density is 17507 W/cm2, the coatings are destroyed completely. The thermal infection field on substrate is rather small. The laser energy is depleted by the phase transformation and cracks in Al2O3 coatings during the laser thermal shock.

KW - AlO coatings

KW - CW laser

KW - Demolishment

KW - Plasma spray

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Damage mechanism of Al₂O₃ ceramic coatings irradiated by CO₂ CW laser

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