2 resultados para LIGHT-INDUCED AUTOFLUORESCENCE
em AMS Tesi di Laurea - Alm@DL - Università di Bologna
Resumo:
Lo scopo di questo lavoro di tesi sperimentale consiste nell’ideazione e nell’ottimizzazione di nuove forme d’ingegnerizzazione di sistemi nano e micrometrici di silice (SiO2) in cui sono stati incorporati complessi di metalli di transizione e lantanoidei. Lo studio è scaturito dalla prospettiva di poter trasferire le caratteristiche di luminescenza dei complessi dalla scala molecolare di sintesi a quella macroscopica, attraverso l’utilizzo di una opportuna matrice veicolante. Dopo una intensa sessione di lavoro dedicata all’ottimizzazione della sintesi e delle caratteristiche di stabilità e resistenza dei sistemi, dalla fase sol fino ai micronizzati, si è sviluppata una possibile applicazione industriale come substrato tessile dotato di funzioni eventualmente antibatteriche. This experimental work is aimed at exploiting and optimizing new and convenient ways to incorporate organometallic and lanthanoid complexes into silica-based colloid matrices. Following a similar approach, the luminescent properties of both organometallic and lanthanoid complexes could be kept unaltered on passing from the molecular to nanometric scale (sol), ending up to micrometer sized systems (micro-powders). The subsequent optimization of the processes led to systems that were loaded onto the surface of fabric, which were successively studied for their light-induced antimicrobial abilities.
Resumo:
This thesis work encloses activities carried out in the Laser Center of the Polytechnic University of Madrid and the laboratories of the University of Bologna in Forlì. This thesis focuses on the superficial mechanical treatment for metallic materials called Laser Shock Peening (LSP). This process is a surface enhancement treatment which induces a significant layer of beneficial compressive residual stresses underneath the surface of metal components in order to improve the detrimental effects of the crack growth behavior rate in it. The innovation aspect of this work is the LSP application to specimens with extremely low thickness. In particular, after a bibliographic study and comparison with the main treatments used for the same purposes, this work analyzes the physics of the operation of a laser, its interaction with the surface of the material and the generation of the surface residual stresses which are fundamentals to obtain the LSP benefits. In particular this thesis work regards the application of this treatment to some Al2024-T351 specimens with low thickness. Among the improvements that can be obtained performing this operation, the most important in the aeronautic field is the fatigue life improvement of the treated components. As demonstrated in this work, a well-done LSP treatment can slow down the progress of the defects in the material that could lead to sudden failure of the structure. A part of this thesis is the simulation of this phenomenon using the program AFGROW, with which have been analyzed different geometric configurations of the treatment, verifying which was better for large panels of typical aeronautical interest. The core of the LSP process are the residual stresses that are induced on the material by the interaction with the laser light, these can be simulated with the finite elements but it is essential to verify and measure them experimentally. In the thesis are introduced the main methods for the detection of those stresses, they can be mechanical or by diffraction. In particular, will be described the principles and the detailed realization method of the Hole Drilling measure and an introduction of the X-ray Diffraction; then will be presented the results I obtained with both techniques. In addition to these two measurement techniques will also be introduced Neutron Diffraction method. The last part refers to the experimental tests of the fatigue life of the specimens, with a detailed description of the apparatus and the procedure used from the initial specimen preparation to the fatigue test with the press. Then the obtained results are exposed and discussed.