Temperature distribution induced by laser radiation is a very important
parameter for an efficient and safe application of lasers in different ceramic
processing techniques. This paper presents the results of an infrared
thermography (IRT) application for monitoring temperature distribution on
a ceramic surface during Nd: YAG laser irradiation with different fluences
and 8ns pulse duration. FLIR, E40 and SC7200 IR cameras were used with
the aim of recording the maximum temperature in the irradiated zones. It
was expected that IRT could give some information related to the heat
affected zone and possible damage to the base material; however, the results
have shown that IR cameras, even those with high performance such as
SC7200, cannot record the maximum temperature value at the moment of
laser operation, but only the average temperature of the bulk sample
material after laser pulses. The ... results of the numerical simulation have
confirmed the value of the thermographic measurements. The microstructure
and micromorphology of the ceramic surface before and after the laser
treatment were analysed by optical and scanning electron microscopy as
well as by examining the roughness of the irradiated and non- irradiated
surfaces, while the micromechanical changes were analysed by comparing
the micro-hardness of the irradiated and non-exposed surfaces.
Ključne reči:
Laser / Chemical properties / Surface properties / Scanning electron microscopy (SEM) / Numerical simulation
TY - JOUR
AU - Knežević, Dragan
AU - Radojković, Bojana
AU - Ristić, Slavica
AU - Polić, Suzana
AU - Janićijević, Milovan
AU - Tomić, Ljubiša
AU - Jegdić, Bore
PY - 2019
UR - https://cer.ihtm.bg.ac.rs/handle/123456789/3978
AB - Temperature distribution induced by laser radiation is a very important
parameter for an efficient and safe application of lasers in different ceramic
processing techniques. This paper presents the results of an infrared
thermography (IRT) application for monitoring temperature distribution on
a ceramic surface during Nd: YAG laser irradiation with different fluences
and 8ns pulse duration. FLIR, E40 and SC7200 IR cameras were used with
the aim of recording the maximum temperature in the irradiated zones. It
was expected that IRT could give some information related to the heat
affected zone and possible damage to the base material; however, the results
have shown that IR cameras, even those with high performance such as
SC7200, cannot record the maximum temperature value at the moment of
laser operation, but only the average temperature of the bulk sample
material after laser pulses. The results of the numerical simulation have
confirmed the value of the thermographic measurements. The microstructure
and micromorphology of the ceramic surface before and after the laser
treatment were analysed by optical and scanning electron microscopy as
well as by examining the roughness of the irradiated and non- irradiated
surfaces, while the micromechanical changes were analysed by comparing
the micro-hardness of the irradiated and non-exposed surfaces.
PB - Vinča Institute of Nuclear Sciences, Belgrade
T2 - Thermal Science
T1 - Monitoring of a ceramic surface temperature field induced by pulsed Nd: YAG laser
DO - 10.2298/TSCI190811425K
ER -
@article{
author = "Knežević, Dragan and Radojković, Bojana and Ristić, Slavica and Polić, Suzana and Janićijević, Milovan and Tomić, Ljubiša and Jegdić, Bore",
year = "2019",
url = "https://cer.ihtm.bg.ac.rs/handle/123456789/3978",
abstract = "Temperature distribution induced by laser radiation is a very important
parameter for an efficient and safe application of lasers in different ceramic
processing techniques. This paper presents the results of an infrared
thermography (IRT) application for monitoring temperature distribution on
a ceramic surface during Nd: YAG laser irradiation with different fluences
and 8ns pulse duration. FLIR, E40 and SC7200 IR cameras were used with
the aim of recording the maximum temperature in the irradiated zones. It
was expected that IRT could give some information related to the heat
affected zone and possible damage to the base material; however, the results
have shown that IR cameras, even those with high performance such as
SC7200, cannot record the maximum temperature value at the moment of
laser operation, but only the average temperature of the bulk sample
material after laser pulses. The results of the numerical simulation have
confirmed the value of the thermographic measurements. The microstructure
and micromorphology of the ceramic surface before and after the laser
treatment were analysed by optical and scanning electron microscopy as
well as by examining the roughness of the irradiated and non- irradiated
surfaces, while the micromechanical changes were analysed by comparing
the micro-hardness of the irradiated and non-exposed surfaces.",
publisher = "Vinča Institute of Nuclear Sciences, Belgrade",
journal = "Thermal Science",
title = "Monitoring of a ceramic surface temperature field induced by pulsed Nd: YAG laser",
doi = "10.2298/TSCI190811425K"
}
Knežević D, Radojković B, Ristić S, Polić S, Janićijević M, Tomić L, Jegdić B. Monitoring of a ceramic surface temperature field induced by pulsed Nd: YAG laser. Thermal Science. 2019;
Knežević, D., Radojković, B., Ristić, S., Polić, S., Janićijević, M., Tomić, L.,& Jegdić, B. (2019). Monitoring of a ceramic surface temperature field induced by pulsed Nd: YAG laser.
Thermal ScienceVinča Institute of Nuclear Sciences, Belgrade..
https://doi.org/10.2298/TSCI190811425K
Knežević Dragan, Radojković Bojana, Ristić Slavica, Polić Suzana, Janićijević Milovan, Tomić Ljubiša, Jegdić Bore, "Monitoring of a ceramic surface temperature field induced by pulsed Nd: YAG laser" (2019),
https://doi.org/10.2298/TSCI190811425K .
