Study of mechanical properties of aluminum, AMg6M alloy, and polymethyl methacrylate at high strain rates under the action of picosecond laser radiation

Abstract: 64Recently, the dynamic strength for aluminum, the AMg6M aluminum-magnesium alloy, and polyme thyl methacrylate (PMMA) were studied experimen tally by the method of laser generation of shock waves [1][2][3]. It was established that the mechanical strengths of these materials attained the limiting values at strain rates of 10 6 -10 7 s -1 . Further, it seems to be important to reveal the intrinsic features of similar processes occurring at strain rates exceeding 10 7 s -1 . This range is available under the con… Show more

“…The experiment was carried out on a Kamerton-T facility based on a neodymium glass laser (wavelength λ = 0.527 µm) [8,10,11]. A pulse with duration τ = 70 ps and energy E l = 3.57 J was focused into a spot 0.63 mm in diameter on the surface of a 90-µm-thick aluminum target.…”

“…The action of a short high-intensity laser pulse upon a target makes it possible to study the properties of the target material under shock-wave loading at a high strain rate [1][2][3][4][5][6][7][8][9]. Numerical modeling of such a process [2,3,6,[10][11][12][13][14][15][16] provides additional possibilities for the interpretation of the obtained measurement results.…”

Modeling of shock-wave processes in aluminum under the action of a short laser pulse

“…The experiment was carried out on a Kamerton-T facility based on a neodymium glass laser (wavelength λ = 0.527 µm) [8,10,11]. A pulse with duration τ = 70 ps and energy E l = 3.57 J was focused into a spot 0.63 mm in diameter on the surface of a 90-µm-thick aluminum target.…”

“…The action of a short high-intensity laser pulse upon a target makes it possible to study the properties of the target material under shock-wave loading at a high strain rate [1][2][3][4][5][6][7][8][9]. Numerical modeling of such a process [2,3,6,[10][11][12][13][14][15][16] provides additional possibilities for the interpretation of the obtained measurement results.…”

Modeling of shock-wave processes in aluminum under the action of a short laser pulse

“…At that time, for this purpose, the laser facilities "Kamerton" and "Sirius" were used. By now, with the laser "Kamerton-T", spallation phenomena are studied in aluminum, tantalum, copper, tungsten, palladium, lead, silicon, graphite, synthetic diamond and polymethylmethacrylate [16,17,19,[21][22][23][24][25][26][27][28][29][30]. Photographs of rear sides of the targets of some materials after laser action are shown in figure 4.…”

Study of extreme states of matter at high energy densities and high strain rates with powerful lasers

“…The desire for further progress in the field of previously inaccessible parameters and the possibility of organizing shock-wave studies in the conditions of the ordinary physical laboratory prompted the use of other methods of intensive influence on matter. In particular, high-power pulsed lasers and high-current electron beams are widely used as sources of high dynamic pressures for studying the elastoplastic and strength properties of metals and plastics (see, for example, [1][2][3][4]).…”

On the destruction of elastic polymer materials under the action of an electron beam