646 research outputs found
Ripple formation on Nickel irradiated with radially polarized femtosecond beams
We report on the morphological effects induced by the inhomogeneous
absorption of radially polarized femtosecond laser irradiation of nickel (Ni)
in sub-ablation conditions. A theoretical prediction of the morphology profile
is performed and the role of surface plasmon excitation in the production of
self-formed periodic ripples structures is evaluated. Results indicate a
smaller periodicity of the ripples profile compared to that attained under
linearly polarized irradiation conditions. A combined hydrodynamical and
thermoelastic model is presented in laser beam conditions that lead to material
melting. The simulation results are presented to be in good agreement with the
experimental findings. The ability to control the size of the morphological
changes via modulating the beam polarization may provide an additional route
for controlling and optimizing the outcome of laser micro-processingComment: 4 pages, 4 figures, 4 appendix page
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Mechanical performance of composite bonded joints in the presence of localised process-induced zero-thickness defects
Processing parameters and environmental conditions can introduce variation into the performance of adhesively bonded joints. The effect of such variation on the mechanical performance of the joints is not well understood. Moreover, there is no validated nondestructive inspection (NDI) available to ensure bond integrity post-process and in-service so as to guarantee initial and continued airworthiness in aerospace sector. This research studies polymer bond defects produced in the laboratory scale single-lap composite-to-composite joints that may represent the process-induced defects occurring in actual processing scenarios such as composite joining and repair in composite aircrafts. The effect of such defects on the degradation of a joint's mechanical performance is then investigated via quasi-static testing in conjunction with NDI ultrasonic C-scanning and pulsed thermography. This research is divided into three main sections: 1- manufacturing carbon fibre-reinforced composite joints containing representative nearly zero-thickness bond defects, 2- mechanical testing of the composite joints, and 3- assessment of the NDI capability for detection of the bond defects in such joints
Recent Progress of RF Cavity Study at Mucool Test Area
In order to develop an RF cavity that is applicable for a muon beam cooling
channel, a new facility, called Mucool Test Area (MTA) has been built at
Fermilab. MTA is a unique facility whose purpose is to test RF cavities in
various conditions. There are 201 and 805 MHz high power sources, a 4-Tesla
solenoid magnet, a cryogenic system including a Helium liquifier, an explosion
proof apparatus to operate gaseous/liquid Hydrogen, and a beam transport line
to send an intense H- beam from the Fermilab Linac accelerator to the MTA hall.
Recent activities at MTA will be discussed in this document.Comment: 4 pp. 13th International Workshop on Neutrino Factories, Superbeams
and Beta beams (NuFact11) 1-6 Aug 2011: Geneva, Switzerlan
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