Metallography Investigation of Thermal Wave Control by Magneto-Static Field

Document Type : Articles

Authors

Malek Ashtar University of Technology

Abstract

In this paper we have studied the effect of magneto-static field on
propagation of thermal wave generated in metal by pulsed laser. In fact this interaction
generate acoustic wave in different mechanisms. However, always the common
mechanism in the interactions of laser pulse and metal is the thermo-elastic wave
generation. Applying the suitable magneto-static field on the surface of interaction of
laser pulse and metal can trap the propagation of thermal wave in thermo-elastic regime.
The physical mechanism of trapping and experimental results have investigated in this
paper. We obtained maximum reduction in 2D thermal wave propagation around
in simulation and around 5.3% by metallography.

Keywords

References

[1] L. B. Kreuzer, Ultra low gas concentration Infrared absorption spectroscopy, J. APP. Phys. 42 (1971) 2934.
[2] J. W. Wagner, Laser Sources For Generation of Ultrasound, Contract No. NAG-1-1524, NASA, CR, (2008) 93-102.
[3] S. A. Akhmanov and V. E. Gusev, Laser excitation of ultrashort acoustic pulses, Sov. Phys. Usp. (1992), 135-153,
[4] C.B. Scruby and L. E. Drain, Laser ultrasonic, Laser and applications, Ed. Adam Hilger, 1990.
[5] V. E. Gusev, Laser optoacoustics, Ed. AIP, 1993.
[6] P. Ruello, V. E. Gusev ,Physical mechanisms of coherent acoustic phonons generation by ultrafast laser action, ScienceDirect, Ultrasonics 56 (2015), 21–35.
[7] A.C. Tam, Applications of photoacoustic sensing techniques, Rev. Mod. Phys. 58 (1986) 381–431.
[8] V. E. Gusev, A. Karabutov, Laser Optoacoustics, AIP, New York (1993) 512-523.
[9] S.A. Akhmanov, V.E. Gusev, Thermal effect on sound generation by laser, Sov. Phys. Usp. (1992) 171- 176.
[10] T. Kundu , Ultrasonic non-destructive evaluation, Ed. CRC Press, 2003.
[11] D. Cleary, J. N. Lalena, Principle of inorganic material design, Ed. John Wiley and sons, 2010.
[12] M. Servatkhah, S. Goodarzi, Interaction of Laser Beam and Gold Nanoparticles, Study of Scattering Intensity and the Effective Parameters, Journal of Optoelectronical Nanostructures 2 (2017), 3.
[13] M. Servatkhah, H. Alaei, The Effect of Antenna Movement and Material Properties on Electromagnetically Induced Transparency
in a Two- Dimensional Metamaterials, Journal of Optoelectronical Nanostructures 1 (2016), 2.

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