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Microscopy
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Journal Articles
AM&P Technical Articles (2023) 181 (1): 32–35.
Published: 01 January 2023
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This article reviews the analytical techniques used for phase identification in components, including x-ray diffraction, metallography/microscopy, electron backscatter diffraction, trasmission electron microscopy,and atom probe tomography. The article addresses the advantages and disadvantages of each technique compared to the other approaches.
Journal Articles
AM&P Technical Articles (2022) 180 (8): 27–31.
Published: 01 November 2022
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Atomic force microscopy studies show that sharp yield points in steels are explained by the existence of hard grain boundary walls, contrary to current accepted theories.
Journal Articles
AM&P Technical Articles (2022) 180 (8): 19–23.
Published: 01 November 2022
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This article describes sample preparation to create a visually impressive micrograph image of single-phase cartridge brass, C26000, an alloy composition of 70% copper and 30% zinc. C26000 was chosen due to the striking twins and large grain size that are easily generated by annealing a cold-worked sample, the large range of contrast and colors that can be created by etching, and the wide availability of the material. This entry won the Jacquet-Lucas Award for Best in Show at the 2021 International Metallographic Contest.
Journal Articles
AM&P Technical Articles (2022) 180 (1): 16–20.
Published: 01 January 2022
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Two case studies highlight the strengths and weaknesses between traditional metallurgical techniques and 3D micro-computed tomography, as well as the interplay between the two.
Journal Articles
AM&P Technical Articles (2021) 179 (8): 30–32.
Published: 01 November 2021
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In steel production, an automated particle workflow can increase the efficiency and statistical relevance of nanosized precipitate analyses, resulting in increased productivity and accuracy.
Journal Articles
AM&P Technical Articles (2021) 179 (6): 50–51.
Published: 01 September 2021
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A microscope using differential interference contrast inspects grains and inclusions on heat treated aluminum parts to help predict the performance of the metal.
Journal Articles
AM&P Technical Articles (2021) 179 (4): 62–65.
Published: 01 May 2021
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Using advanced characterization techniques on surface hardened steels builds a richer understanding of the underlying metallurgical phenomena.
Journal Articles
AM&P Technical Articles (2021) 179 (4): 25–27.
Published: 01 May 2021
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This entry won the prestigious Jacquet-Lucas Award for Best in Show in the 2020 International Metallographic Contest. In the research discussed in this article, light microscopy was applied to a Co28Cr6Mo alloy for a biomedical application processed by laser bed powder fusion (LPBF) additive manufacturing.
Journal Articles
AM&P Technical Articles (2020) 178 (5): 15–19.
Published: 01 July 2020
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This article explains how SEM, TEM, and atom probe tomography are being used in the development of additively manufactured high-entropy alloys (HEAs), revealing critical features such as anisotropic microstructure and metallurgical defects. It also discusses ongoing efforts to improve the predictability and analysis of HEA microstructure using data-driven approaches.
Journal Articles
AM&P Technical Articles (2020) 178 (3): 26–29.
Published: 01 April 2020
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New electrical, mechanical, and chemical testing capabilities give scanning electron microscopes the feel of a self-contained “nano-laboratory.” Several developments in SEM technology allow new and more flexible approaches to the analysis of novel systems, such as Li battery-related materials, nanostructured and nanoporous materials, and novel approaches to 3D analysis.
Journal Articles
AM&P Technical Articles (2020) 178 (1): 24–26.
Published: 01 January 2020
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Integrated elemental analysis with color imaging lets researchers quickly and accurately answer compositional questions.
Journal Articles
AM&P Technical Articles (2019) 177 (6): 23–24.
Published: 01 September 2019
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Many broken parts look similar at a glance, but examination of the failed part using advanced equipment and methods such as scanning electron microscopy (SEM) reveals much more about the origins of the failure. This article presents a case history involving SEM analysis of a trailer hitch fatigue failure.
Journal Articles
AM&P Technical Articles (2018) 176 (1): 27–30.
Published: 01 January 2018
Abstract
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Characterizing ice and snow is important not only for building accurate climate models, but also for activities such as relating the mechanical properties of sea ice to its microstructure so that the interaction of ice with ships and structures can be better understood. This article describes the microstructural characterization of ice. Many microstructural characterization techniques that can be applied to other materials also can be used to examine ice.
Journal Articles
AM&P Technical Articles (2017) 175 (5): 59–62.
Published: 01 July 2017
Abstract
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This article series explores the indispensable role of characterization in the development of cold spray coatings. Transmission electron microscopy is used to understand powder characteristics, cold spray coating deformation behavior both within splats as well as near the coating-substrate interface, phase transformations in the as-sprayed and heat treated conditions, phase equilibria of the coating under the operating conditions pertaining to the application of the coating, the coating recovery mechanism, and the thermal stability of the coating.
Journal Articles
AM&P Technical Articles (2017) 175 (4): 42–43.
Published: 01 May 2017
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Focused ion beam (FIB) systems are selectively used in cold spray coating characterization to gather information on the nature of splat formation, single splats, multiple splats, or the coating-substrate interface. Electron probe microanalysis has been used in cold-sprayed coating characterization primarily to understand the bonding mechanism at the coating-substrate interface.
Journal Articles
AM&P Technical Articles (2017) 175 (4): 28–31.
Published: 01 May 2017
Abstract
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Scanning electron microscopy and energy dispersive x-ray spectroscopy open new windows into glassmaking processes.
Journal Articles
AM&P Technical Articles (2017) 175 (2): 40–42.
Published: 01 February 2017
Abstract
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In cold spray characterization, scanning electron microscopy is used to analyze feedstock powders for particle size, distribution, shape, and chemical composition prior to spraying. SEM is used extensively to characterize coating chemistry via energy-dispersive x-ray spectroscopy (EDS). Coating thickness and interface contour can be characterized in a manner that makes SEM an indispensable and versatile tool for evaluating coating integrity in the as-sprayed condition, as well as in developing an understanding of bonding to the substrate.
Journal Articles
AM&P Technical Articles (2017) 175 (1): 29–30.
Published: 01 January 2017
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By limiting recombination, passivated emitter and rear cell (PERC) solar cells can provide an absolute efficiency boost of 1%, making their relative efficiency about 7% greater than that of other screen printing methods. This article covers the early stages of the nondestructive and destructive imaging performed to evaluate and enhance the efficiency of PERC solar cells. Electroluminescence images, acoustic images, and scanning electron micrographs were used in this research.
Journal Articles
AM&P Technical Articles (2016) 174 (10): 22–25.
Published: 01 November 2016
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3D laser microscopy is opening new areas of study for metallic alloys and coatings in power generation applications. This article describes some case studies where laser microscopy has augmented, and in some cases replaced, metallic alloy characterization using optical microscopy or scanning electron microscopy.
Journal Articles
AM&P Technical Articles (2016) 174 (10): 16–21.
Published: 01 November 2016
Abstract
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Development of new, radiation-tolerant materials that maintain the structural integrity and safety margins over the course of a nuclear power reactor’s service life requires the ability to predict degradation phenomena. Modern post-irradiation examination methods make use of specialized high-flux test reactors and dedicated characterization facilities to limit occupational exposure and prevent the spread of radioactive contamination. This article illustrates the use of these advanced techniques to characterize precipitates in neutron-irradiated Fe-Cr-Al alloys.
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