Experimental study and modeling of laser induced surface damage dynamics on aluminum alloy containing zeolite /
Osama Mostafa Ahmed Khalil
Experimental study and modeling of laser induced surface damage dynamics on aluminum alloy containing zeolite / Zeolite دراسة تجريبية ونمذجة لديناميكية الإضرار المستحث باليزر لسطح سبيكة الومنيوم تحوى Osama Mostafa Ahmed Khalil ; Supervised Mohamed Abdelharith Mohamed - Cairo : Osama Mostafa Ahmed Khalil , 2014 - 129 P. : charts , facsimiles ; 25cm
Thesis (Ph.D.) - Cairo University - National Institute of Laser Enhanced Sciences - Department of Laser Applications in environmental Metrology Photochemistry and Agriculture
Aluminum alloys are important structural materials because of their high strength to weight ratio. Unfortunately, due to their high reflectivity and complexity in heat treatment, aluminum alloys are some of the hardest metals to be laser treated successfully and very high laser power is usually required. In the present work detailed study of the interaction of laser light with a special aluminum alloy (containing zeolite) compared with pure aluminum is presented. The inclusion of zeolite material inside the aluminum alloy gives the alloy expandable volume under compression. Three lasers have been used throughout the present study. An Nd:YAG laser (1064 nm), with pulse width in nanosecond scale, which has the maximum absorption coefficient with aluminum alloy, and two femtosecond lasers; Ti:sapphire laser source (800 nm), and Satsuma laser source (1030 nm). This makes it possible to study the effect of both the laser wavelength and the pulse duration on the interaction mechanisms as well as the LIBS analysis
Laser Laser ablatiom Spectro scopy
Experimental study and modeling of laser induced surface damage dynamics on aluminum alloy containing zeolite / Zeolite دراسة تجريبية ونمذجة لديناميكية الإضرار المستحث باليزر لسطح سبيكة الومنيوم تحوى Osama Mostafa Ahmed Khalil ; Supervised Mohamed Abdelharith Mohamed - Cairo : Osama Mostafa Ahmed Khalil , 2014 - 129 P. : charts , facsimiles ; 25cm
Thesis (Ph.D.) - Cairo University - National Institute of Laser Enhanced Sciences - Department of Laser Applications in environmental Metrology Photochemistry and Agriculture
Aluminum alloys are important structural materials because of their high strength to weight ratio. Unfortunately, due to their high reflectivity and complexity in heat treatment, aluminum alloys are some of the hardest metals to be laser treated successfully and very high laser power is usually required. In the present work detailed study of the interaction of laser light with a special aluminum alloy (containing zeolite) compared with pure aluminum is presented. The inclusion of zeolite material inside the aluminum alloy gives the alloy expandable volume under compression. Three lasers have been used throughout the present study. An Nd:YAG laser (1064 nm), with pulse width in nanosecond scale, which has the maximum absorption coefficient with aluminum alloy, and two femtosecond lasers; Ti:sapphire laser source (800 nm), and Satsuma laser source (1030 nm). This makes it possible to study the effect of both the laser wavelength and the pulse duration on the interaction mechanisms as well as the LIBS analysis
Laser Laser ablatiom Spectro scopy