Effects of Water Cooling on the Microstructure of Electron Beam Additive-Manufactured Ti-6Al-4V

The inferior mechanical properties of EBAM Ti-6Al-4V samples are due to the coarse columnar grains containing coarse lamellar structures. One can expect that water cooling of the build platform will increase the cooling rate of the molten pool during the build-up process, causing microstructure refinement. In the present work, the substrate cooling effects on the microstructure and phase composition of EBAM Ti-6Al-4V samples are studied using optical, scanning electron, and scanning transmission microscopy, as well as X-ray diffraction analysis. It is shown that the microstructure of the EBAM Ti-6Al-4V samples built on the substrate without water cooling consists predominantly of columnar prior β grains with lateral sizes ranging up to 2000 µm, while cooling of the build platform causes the appearance of equiaxed prior β grains measuring 1000 µm. Moreover, the refinement of the martensite structure and the precipitation of α″ martensite platelets within a laths occur in the EBAM Ti-6Al-4V samples built on the water-cooled build platform. An explanation of the mechanisms underlying the α′→α + β and α′→α + α″ + β transformations during the building process is provided based upon ab initio calculations. The fragmentation of the a laths under the residual compressive stresses is discussed.

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Microstructural Precipitation Evolution and In Vitro Degradation Behavior of a Novel Chill-Cast Zn-Based Absorbable Alloy for Medical Applications

Metals ◽

10.3390/met10050586 ◽

2020 ◽

Vol 10 (5) ◽

pp. 586

Author(s):

Ana Laura Ramirez–Ledesma ◽

Paola Roncagliolo–Barrera ◽

Carlo Paternoster ◽

Riccardo Casati ◽

Hugo Lopez ◽

...

Keyword(s):

Biomedical Applications ◽

Alloy System ◽

X Ray Diffraction ◽

In Vitro Degradation ◽

Transmission Microscopy ◽

Optical Scanning ◽

Degradation Rates ◽

Scanning Transmission ◽

Chill Cast

In recent years, increasing interest has been placed in the development of Zn alloys for absorbable biomedical applications. It has been demonstrated that these alloys are potential candidates for endovascular applications. In the present work, a novel Zn-12.5Ag-1Mg alloy was investigated as a potential biomedical absorbable material. As a reference, the exhibited biocompatible properties are compared with those of pure Zn and a Zn-1Mg alloy. All the alloys investigated in this work were cast in a water-cooled Cu-mold (chill casting). Subsequently, the alloys were solution-treated and then extruded. The microstructural evolution at each stage of the alloy processing was resolved by analytical means including optical, scanning, transmission microscopy, and X-ray diffraction. By these means, the various phases belonging to this alloy system were disclosed. In addition, determinations of both corrosion and mechanical properties were carried out in the proposed Zn-12.5Ag-1Mg alloy. In particular, an excellent combination of strength and ductility was found, which is attributed to grain refinement as well as the precipitation of a uniform distribution of refined phases (i.e., AgZn solid solution, ε-AgZn3, and Ag0.15MgZn1.85 intermetallics). All the precipitated intermetallics were embedded in a η-Zn matrix. As for the corrosion degradation in the physiological NaCl solution in the as-extruded condition, the experimental outcome indicates that the Zn-12.5Ag-1Mg alloy exhibits degradation rates far superior to currently reported ones for Zn-based alloys intended for absorbable biomedical applications.

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Atomic Structure of La067Ca0.33MnO3 Thin Films on LaAlO3

Microscopy and Microanalysis ◽

10.1017/s1431927600034504 ◽

2000 ◽

Vol 6 (S2) ◽

pp. 402-403

Author(s):

H-J. Gao ◽

C.L. Chen ◽

X. Fan ◽

M. Kim ◽

S.Y. Chen ◽

...

Keyword(s):

Thin Films ◽

Atomic Structure ◽

Perovskite Manganites ◽

X Ray Diffraction ◽

Transmission Microscopy ◽

Transmission Electron ◽

Scanning Transmission ◽

Film Substrate ◽

Z Contrast ◽

Electron Energy Loss

Thin films of doped perovskite manganites of the type R1-X AxMnO3-y are currently become the focus of intense theoretical and experimental research due to their promising technological implications. However, the microstructure of the film and the interface structure at the atomic level remains unclear. In this report, we will present the atomic structure of the film/substrate interface and the microstructure of the film using a combination of transmission electron microscopy (TEM), Z-contrast scanning transmission microscopy (STEM), and electron energy loss spectroscopy (EELS).The La0.67Ca0.33MnO3 (LCMO) samples were grown on (001) LaA1O3 (LAO) using pulsed laser deposition. X-ray diffraction indicated the films to be oriented with the [001] directions parallel to the <001> directions of the pseudo-cubic perovskite LAO. Rocking curve measurements using the (002) reflection from the film indicated a full width half maximum of less than 0.3°. A Philips EM-400 electron microscope at 100 kV and a VG HB603 STEM at 300 kV were employed for sample analysis.

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Scanning Transmission Microscopy Applied to Thick Specimen

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100095510 ◽

1972 ◽

Vol 30 ◽

pp. 452-453

Author(s):

H. Koike ◽

T. Matsuo ◽

K. Ueno ◽

M. Suzuki

Keyword(s):

Psoas Muscle ◽

Image Intensifier ◽

Chromatic Aberration ◽

Image Contrast ◽

Transmission Microscopy ◽

Crystalline Materials ◽

Thick Specimen ◽

Transmission Electron ◽

Scanning Transmission ◽

Electron Microscope Image

Since the identification of single atoms was achieved by Crewe et al, scanning transmission microscopy has been put into pratical use. Recently they applied this method to the quantitative mass analysis of DNA.As pointed out previously the chromatic aberration which decreases the image contrast and quality, does not affect a scanning transmission image as it does a conventional transmission electron microscope image. Thus, the STEM method is advantageous for thick specimen. Further this method employs a high sensitive photomultiplier tube which also functions as an image intensifier. This detection method is effective for the observation of living specimens or easily damaged specimens. In this respect the scanning transmission microscope with high accelerating voltage is necessary.Since Uyeda's experiments of crystalline materials, many workers have been discussed how thick specimens can be observed by CTEM. With biological specimens, R. Szirmae reported on the decrease in the image contrast of rabbit psoas muscle sections at various accelerating voltages and specimen thicknesses.

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Transmission Scanning Electron Microscopy and Energy Analysis with the Siemens ELMISKOP 101

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100095509 ◽

1972 ◽

Vol 30 ◽

pp. 450-451

Author(s):

H. M. Thieringer

Keyword(s):

Objective Lens ◽

Transmission Microscopy ◽

Image Recording ◽

Mode Of Operation ◽

Scanning Transmission ◽

Electron Microscopes ◽

And Performance ◽

Convergent Beam ◽

Ray Path ◽

Beam Diffraction

It has repeatedly been show that with conventional electron microscopes very fine electron probes can be produced, therefore allowing various micro-techniques such as micro recording, X-ray microanalysis and convergent beam diffraction. In this paper the function and performance of an SIEMENS ELMISKOP 101 used as a scanning transmission microscope (STEM) is described. This mode of operation has some advantages over the conventional transmission microscopy (CTEM) especially for the observation of thick specimen, in spite of somewhat longer image recording times.Fig.1 shows schematically the ray path and the additional electronics of an ELMISKOP 101 working as a STEM. With a point-cathode, and using condensor I and the objective lens as a demagnifying system, an electron probe with a half-width ob about 25 Å and a typical current of 5.10-11 amp at 100 kV can be obtained in the back focal plane of the objective lens.

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Microstructural examination of modified yttria stabilized zirconia by EM analytical techniques

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100145558 ◽

1986 ◽

Vol 44 ◽

pp. 842-843

Author(s):

W. W. Davison ◽

R. C. Buchanan

Keyword(s):

Mechanical Properties ◽

Analytical Techniques ◽

Yttria Stabilized Zirconia ◽

Stabilized Zirconia ◽

Transmission Microscopy ◽

Sintering Aid ◽

Densification Temperature ◽

Chemical Inertness ◽

Scanning Transmission ◽

Microstructural Examination

Yttria stabilized zirconia (YSZ) has become a significant technological material due to its high ionic conductivity, chemical inertness, and good mechanical properties. Temperatures on the order of 1700°C are required, however, to densify YSZ to the degree necessary for good electrical and mechanical properties. A technique for lowering the densification temperature is the addition of small amounts of material which facilitate the formation of a liquid phase at comparatively low temperatures. In this study, sintered microstructures obtained from the use of Al2O3 as a sintering aid were examined with scanning, transmission, and scanning transmission microscopy (SEM, TEM, and STEM).

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Synthesis and characterization of TiN / Ti / AISI 410 coatings

Journal of Sciences and Engineering ◽

10.32829/sej.v2i1.54 ◽

2018 ◽

Vol 2 (1) ◽

pp. 7

Author(s):

S Chirino ◽

Jaime Diaz ◽

N Monteblanco ◽

E Valderrama

Keyword(s):

Synthesis And Characterization ◽

Photoemission Spectroscopy ◽

X Ray Diffraction ◽

X Ray ◽

Columnar Grains ◽

Tin Thin Films ◽

Steel Aisi ◽

Interacting Surfaces ◽

Stainless Steel Aisi

The synthesis and characterization of Ti and TiN thin films of different thicknesses was carried out on a martensitic stainless steel AISI 410 substrate used for tool manufacturing. The mechanical parameters between the interacting surfaces such as thickness, adhesion and hardness were measured. By means of the scanning electron microscope (SEM) the superficial morphology of the Ti/TiN interface was observed, finding that the growth was of columnar grains and by means of EDAX the existence of titanium was verified. Using X-ray diffraction (XRD) it was possible to observe the presence of residual stresses (~ -3.1 GPa) due to the different crystalline phases in the coating. Under X-ray photoemission spectroscopy (XPS) it was possible to observe the molecular chemical composition of the coating surface, being Ti-N, Ti-N-O and Ti-O the predominant ones.

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Using saturated absorption for super‐resolution laser scanning transmission microscopy

Journal of Microscopy ◽

10.1111/jmi.13033 ◽

2021 ◽

Author(s):

Kentaro Nishida ◽

Hikaru Sato ◽

Ryosuke Oketani ◽

Kentaro Mochizuki ◽

Kenta Temma ◽

...

Keyword(s):

Laser Scanning ◽

Super Resolution ◽

Transmission Microscopy ◽

Saturated Absorption ◽

Scanning Transmission

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Tribological wear of Fe-Al coatings applied by gas detonation spraying

Technical Sciences ◽

10.31648/ts.7129 ◽

2021 ◽

Author(s):

Tomasz Chrostek

Keyword(s):

Dry Friction ◽

Shear Stresses ◽

X Ray Diffraction ◽

Detonation Spraying ◽

Gas Detonation ◽

Compressive Stresses ◽

Spraying Parameters ◽

Thin Oxide Films ◽

Pin On Disc ◽

The Coefficient Of Friction

Comparative tests of gas detonation (GDS) coatings were carried out in order to investigate the influence of spraying parameters on abrasive wear under dry friction conditions. The tests were carried out using the pin-on-disc (PoD) method at room temperature. The microstructure of the coatings was analysed by X-ray diffraction (XRD) and scanning electron microscopy (SEM / EDS) methods. The results showed that with specific GDS process parameters, the main phases in both coatings were FeAl and Fe3Al involving thin oxide films Al2O3. The tribological tests proved that the coatings sprayed with the shorter barrel of the GDS gun showed higher wear resistance. The coefficient of friction was slightly lower in the case of coatings sprayed with the longer barrel of the GDS gun. During dry friction, oxide layers form on the surface, which act as a solid lubricant. The load applied to the samples during the tests causes shear stresses, thus increasing the wear of the coatings. During friction, the surface of the coatings is subjected to alternating tensile and compressive stresses, which lead to delamination and is the main wear mechanism of the coatings.

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Phase Transformation of Powdered Material by Using Metal Jet

Materials Science Forum ◽

10.4028/www.scientific.net/msf.706-709.741 ◽

2012 ◽

Vol 706-709 ◽

pp. 741-744 ◽

Cited By ~ 1

Author(s):

Akio Kira ◽

Ryuichi Tomoshige ◽

Kazuyuki Hokamoto ◽

Masahiro Fujita

Keyword(s):

Phase Transformation ◽

Powdered Material ◽

Scanning Transmission Electron Microscope ◽

Ultrahigh Pressure ◽

X Ray Diffraction ◽

X Ray ◽

Transmission Electron ◽

Scanning Transmission ◽

Metal Jet ◽

Very High

The various techniques of phase transformation of the material have been proposed by many researchers. We have developed several devices to generate the ultrahigh pressure by using high explosive. One of them uses metal jets. It is expected that the ultrahigh pressure occurs by the head-on collision between metal jets, because the velocity of the metal jet is very high. By mixing a powdered material with metal jets, the pressure of the material becomes high. The purpose of this study is to transform the phase of the powdered material by using this high pressure. The powders of the graphite and hBN were applied. The synthesis to the diamond and cBN was confirmed by X-ray diffraction (XRD). In this paper, the mechanism of the generation of the ultrahigh pressure is explained and the results of the observation of the powder by using scanning transmission electron microscope (STEM) are reported.

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Residual Stress Analysis in Different Thickness TiN Coatings on High-Speed-Steel Substrates

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.239-242.2331 ◽

2011 ◽

Vol 239-242 ◽

pp. 2331-2335 ◽

Cited By ~ 1

Author(s):

Fang Mei ◽

Guang Zhou Sui ◽

Man Feng Gong

Keyword(s):

Residual Stresses ◽

High Speed ◽

Thermal Stresses ◽

High Speed Steel ◽

X Ray Diffraction ◽

Tin Coatings ◽

Compressive Stresses ◽

M2 High Speed Steel ◽

Steel Substrates ◽

Different Thickness

TiN coatings were deposited on AISI M2 high-speed-steel (HSS) substrates by multi-arc ion plating technique. The thickness of substrate was 1.0 mm and five thicknesses of TiN coatings were 3.0, 5.0, 7.0, 9.0 and 11.0 μm, respectively. X-ray diffraction (XRD) has been used for measuring residual stresses. The stresses along five different directions (Ψ=0°, 20.7°, 30°, 37.8° and 45°) have been measured by recording the peak positions of TiN (220) reflection for each 2θ at different tilt angles Ψ. Residual compressive stresses present in the TiN coatings. Furthermore, the results revealed that the value of the residual stresses in TiN coatings was high. While the coatings thickness changed from 3 to 11 μm, the residual stresses varied from -3.22 to -2.04 GPa, the intrinsic stresses -1.32 to -0.14 GPa, the thermal stresses -1.86 to -1.75 GPa. The residual stresses in TiN coatings showed a nonlinear change. When the coatings thickness was about 8 μm, the residual stresses in TiN coatings reached to the maximum value.

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