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Simulation of the transient behavior of matter with characteristic geometrical variations & defects irradiated by nanosecond laser lulses using FEA

Stavroulakis Georgios, Skarvelakis Emmanouil, Kaselouris Evangelos, Nikolos Ioannis, Y. Orphanos, E. Bakarezos, Papadogiannis, Nikolaos, M. Tatarakis, V. Dimitriou

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URI: http://purl.tuc.gr/dl/dias/54A10286-CDAB-48C4-99DB-73C6DCAFACA9
Year 2015
Type of Item Peer-Reviewed Journal Publication
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Bibliographic Citation E. Kaselouris, E. Skarvelakis, I. K. Nikolos, G. E. Stavroulakis, Y. Orphanos, E. Bakarezos, N. A. Papadogiannis, M. Tatarakis, V. Dimitriou, "Simulation of the transient behavior of matter with characteristic geometrical variations and defects irradiated by nanosecond laser pulses using FEA," Key Eng. Mat., vol. 665, pp. 157-160, Sep. 2015.doi: 10.4028/www.scientific.net/KEM.665.157 https://doi.org/10.4028/www.scientific.net/KEM.665.157
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Summary

The thermomechanical transient response of matter illuminated by nanosecond laser pulses is modeled and simulated using the Finite Element Analysis (FEA). Matter’s behavior is numerically described by a three-dimensional (3D) multiphysics, coupled thermal structural, transient FEA, experimentally validated, model. FEA offers substantial insights into the materials’ micro-mechanical behaviour providing detailed information for the spatiotemporal evolution of acoustic waves. In this computational approach the impact of the geometric characteristics of the modeled metallic films to the generation and propagation of the ultrasonic waves, in relation to temperature, is investigated. The study is expanded to the dynamic reactions of matter in the presence of surface and solid volume defects and enclosures e.g.: gaps, holes or bubbles. The transient behavior of matter in the time and the space solution domains is obtained by the FEA model and presented.

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