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Influence of Heat Treatment on Size and Morphology of Various γ′ Phase in IN738LC and GTD-111 Superalloys
, M.Sc. Thesis Sharif University of Technology ; Asgari, Sirous (Supervisor)
Abstract
Gamma prime (γ') precipitates are the most important phase in nickel-base superalloys that rise to a combination of desirable properties in superalloys. The morphology of these particles has important contribution to the resulting properties of superalloys. Heat treatment process of superalloys is one of the most important factors affecting the characteristics of the γ' phase. In this study, nickel-base superalloys IN738LC and GTD-111 were used to study the evolution of the microstructure and morphology of the γ' precipitates under a variety of heat treatment cycles including partial dissolution, aging for different times and under a range of cooling rates. Morphology and characteristics of...
Design and electromagnetic analysis of a superconducting rotating machine
, Article 2008 Australasian Universities Power Engineering Conference, AUPEC 2008, Sydney, NSW, 14 December 2008 through 17 December 2008 ; 2008 ; 9781424441624 (ISBN) ; Vakilian, M ; Fardmanesh, M ; Sharif University of Technology
2008
Abstract
A superconducting synchronous motor with an inductor containing bulk high temperature superconductor and BiSrCaCuo wires has been studied in this paper. The principle of operation is based on the interaction between the two spatial variable magnetic fields in the motor air gap. One of the two aforementioned magnetic fields is produced by the superconducting inductor based on magnetic shielding of high temperature superconductors. A procedure is developed to calculate the magnetic field produced by the inductor in the environment of the commercial finite element code ANSYS. The HTS motor is designed to develop 100 hp (the rated power). © 2008 Australasian Universities Power Engineering...
Graphic: Graph-based hierarchical clustering for single-molecule localization microscopy
, Article 18th IEEE International Symposium on Biomedical Imaging, ISBI 2021, 13 April 2021 through 16 April 2021 ; Volume 2021-April , 2021 , Pages 1892-1896 ; 19457928 (ISSN); 9781665412469 (ISBN) ; Aziznejad, S ; Unser, M ; Sage, D ; Sharif University of Technology
IEEE Computer Society
2021
Abstract
We propose a novel method for the clustering of point-cloud data that originate from single-molecule localization microscopy (SMLM). Our scheme has the ability to infer a hierarchical structure from the data. It takes a particular relevance when quantitatively analyzing the biological particles of interest at different scales. It assumes a prior neither on the shape of particles nor on the background noise. Our multiscale clustering pipeline is built upon graph theory. At each scale, we first construct a weighted graph that represents the SMLM data. Next, we find clusters using spectral clustering. We then use the output of this clustering algorithm to build the graph in the next scale; in...
Numerical Modeling of Liquid Jet Breakup Using SPH Method
, M.Sc. Thesis Sharif University of Technology ; Morad , Mohammad Reza (Supervisor) ; Omidvar, Pourya (Supervisor)
Abstract
Smoothed Particle Hydrodynamics (SPH) is a numerical Lagrangian meshless method which has numerous applications in astrophysics, hydrodynamics, free-surface flows, jets and sprays formation. Atomization of continuum liquid to fine droplets or in other words, liquid breakup processes are emerged in many engineering applications such as fuel sprays inside the combustion chamber of internal combustion engines that sizes of produced sprays significantly influence the engine’s efficiency. This research is accomplished to investigate the one-phase and two-phase flows of liquid jet breakup. For this aim, an open source code called SPHysics which solves the flow field by SPH method is utilized. This...
Novel in-line effective fiber polarizer based on chromium and gold nano metal films: design and experiment
, Article Laser Physics ; Volume 27, Issue 1 , 2017 ; 1054660X (ISSN) ; Panahi, O ; Malekmohamadi, S ; Mousavi, M ; Mardiha, M ; Kheyrollahi, M ; Sharif University of Technology
2017
Abstract
The performance of the magnesium fluoride/chromium/gold in-line fiber optic polarizer on the thickness of magnesium fluoride buffer layer and chromium metal thin film was theoretically investigated. To prove the theoretical study, the magnesium fluoride/chromium/gold polarizer was made based on the simulation results. The obtained polarizer showed an extinction ratio of about 40 dB which is in a good agreement with the theoretical result at the corresponding thicknesses. Both theoretical and experimental results showed that by covering the side polished single mode fiber with the optimum layer thicknesses, a novel and an efficient fiber polarizer with the high extinction ratio could be...