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Online since: March 2008
Authors: Susan Drozdz, William Abbott, Vincent F. Hock, Sean Morefield
Atmospheric Chlorides; Comparison of Land vs Ship Data; Projected 1 Year Values
Corrosion Of 6061 Al; Comparisons Of Land vs.
Corrosion of 6061 T6 Al; Comparison of Land vs.
Irwin; El Grazio Ft.
Irwin; El Grazio Ft.
Corrosion of 6061 T6 Al; Comparison of Land vs.
Irwin; El Grazio Ft.
Irwin; El Grazio Ft.
Online since: July 2011
Authors: Hai He Luo, Qi Zhou Cai
The plasma electrolytic oxidation (PEO), also called micro-arc oxidation (MAO), has been found to be an effective and promising surface treatment technique in improving the corrosive, tribological and mechanical properties and biocompatibility of Al, Mg, Ti, Zr and their alloys [7-11].
As can be seen from Fig. 3, the elements of O, F, Na, Mg, Al, Si, Zr, K and Y were detected, the elements of Mg and Al came from the magnesium substrate, while the elements of F, Na, Si, Zr, K and Y came from the electrolyte.
Moreover, the elements Mg and Al mainly distributed in the inner layer, the elements F, Na, Si and K were mainly in the outer layer, while O, Zr and Y distributed relatively evenly in the inner and outer layer.
From Fig.8b, it can be seen that the elemental compositions in Region-B (Fig. 7e) were O, F, Na, Mg, Al, Si, Y, Zr and K; there was no Cl element to be found.
El Mahallawy, A.
As can be seen from Fig. 3, the elements of O, F, Na, Mg, Al, Si, Zr, K and Y were detected, the elements of Mg and Al came from the magnesium substrate, while the elements of F, Na, Si, Zr, K and Y came from the electrolyte.
Moreover, the elements Mg and Al mainly distributed in the inner layer, the elements F, Na, Si and K were mainly in the outer layer, while O, Zr and Y distributed relatively evenly in the inner and outer layer.
From Fig.8b, it can be seen that the elemental compositions in Region-B (Fig. 7e) were O, F, Na, Mg, Al, Si, Y, Zr and K; there was no Cl element to be found.
El Mahallawy, A.
Online since: September 2013
Authors: Yan Long
Nonnenmacher et al proposed another suppression mechanism that adopts exponential adaption of feedback probability.
[12] Byers, J., Frumin, M., Horn, G. et al.
[19] Mankin, A., Romanow, A., Bradner, S., et al.
[23] Padhye, J., Firoiu, V., Towsley, D., et al.
[25] Floyd, S., Jacobson, V., Liu, C., et al.
[12] Byers, J., Frumin, M., Horn, G. et al.
[19] Mankin, A., Romanow, A., Bradner, S., et al.
[23] Padhye, J., Firoiu, V., Towsley, D., et al.
[25] Floyd, S., Jacobson, V., Liu, C., et al.
Online since: February 2014
Authors: Liang Jin Gui, Fang Yu Zhang, Zi Jie Fan, Jin Lin Chen
Park et al. explored primary and second plateaus formed on the pad surface from micro perspective, leading to a better understanding of tribosystem of disc/pad contacts.
In 2009, Söderberg et al. simulated the wear and stress distribution between the disc/pad interface with constant wear rate [10].
Gopal et al. studied the sensitivities of carbon-fiber-reinforced phenolic friction material to load, speed and temperature [12].
The effect of load at ambient temperature and heated temperature on the friction and wear of Al-based metal-matrix-composites against friction material was investigated by Straffelini et al. [13].
El-Hija, W.
In 2009, Söderberg et al. simulated the wear and stress distribution between the disc/pad interface with constant wear rate [10].
Gopal et al. studied the sensitivities of carbon-fiber-reinforced phenolic friction material to load, speed and temperature [12].
The effect of load at ambient temperature and heated temperature on the friction and wear of Al-based metal-matrix-composites against friction material was investigated by Straffelini et al. [13].
El-Hija, W.
Online since: December 2022
Authors: Tarik Sadat
Güclüer et al. demonstrated that relative humidity and water content parameters are very important parameters [7].
Nguyen et al. implemented efficient machine learning models to predict compressive and tensile strength of high-performance concrete (HPC) [5].
Materials and Methods This work was carried out on the basis of an experimental data set of 527 compression tests obtained from the work of Vu et al. [1,2,4].
Chicco et al. suggested that this coefficient should be the standard statistical measure to evaluate regression analyses including machine learning [22].
El Bartali, T.
Nguyen et al. implemented efficient machine learning models to predict compressive and tensile strength of high-performance concrete (HPC) [5].
Materials and Methods This work was carried out on the basis of an experimental data set of 527 compression tests obtained from the work of Vu et al. [1,2,4].
Chicco et al. suggested that this coefficient should be the standard statistical measure to evaluate regression analyses including machine learning [22].
El Bartali, T.
Online since: December 2012
Authors: Giuseppe Casalino, Antonio D. Ludovico, Sabina Campanelli
In this paper, a high power fiber Laser–TIG arc hybrid welding process was used for Al-Mg welding.
[2] El Rayes M, Walz C, Sepold G.
Process parameters effects on Al-mg alloys MIG-laser CO2 welding.
Characterisation of al-mg alloys MIG-Laser CO2 combined welding.
Statistical Analysis of MIG-laser CO2 hybrid welding of an Al-Mg alloy.
[2] El Rayes M, Walz C, Sepold G.
Process parameters effects on Al-mg alloys MIG-laser CO2 welding.
Characterisation of al-mg alloys MIG-Laser CO2 combined welding.
Statistical Analysis of MIG-laser CO2 hybrid welding of an Al-Mg alloy.
Online since: March 2009
Authors: Thamy C. Hayashi, Isabel Malico, J.F.C. Pereira
Prakash et al. [1,2] studied by LDV and numerical simulations impinging jets in a
cylindrical enclosure with and without a porous layer.
Seguin et al. [4] conducted experiments with synthetic foams with pore sizes in the range of 10 to 100 ppi.
Moreover, modeling the occurrence of transitional or turbulent regimes inside porous media is a controversial issue, as discussed, for example, by Mickeley et al. [6], Masuoka and Takatsu [7] and Nield [8].
In Pereira et al. [9], velocity measurements were taken in the recirculation flow region, close to the foam inlet.
El-Sayed, K.
Seguin et al. [4] conducted experiments with synthetic foams with pore sizes in the range of 10 to 100 ppi.
Moreover, modeling the occurrence of transitional or turbulent regimes inside porous media is a controversial issue, as discussed, for example, by Mickeley et al. [6], Masuoka and Takatsu [7] and Nield [8].
In Pereira et al. [9], velocity measurements were taken in the recirculation flow region, close to the foam inlet.
El-Sayed, K.
Online since: February 2018
Authors: Jian Ying Yu, Fei Liu, Huang Zhang, Zhi Long Cao
[6] Mashaan N S, Ali A H, Karim M R, et al.
[7] Ameri M, Seif M R, Abbasi M, et al.
[9] Kießling R, Landgraf R, Scherzer R, et al.
[12] Yu J Y, Cao Z L, Xue L H, et al.
[13] Cao W D, Liu S T, Cui X Z, et al.
[7] Ameri M, Seif M R, Abbasi M, et al.
[9] Kießling R, Landgraf R, Scherzer R, et al.
[12] Yu J Y, Cao Z L, Xue L H, et al.
[13] Cao W D, Liu S T, Cui X Z, et al.
Online since: June 2020
Authors: Mahmoud H.A. Gadelhaq, Matias Jaskari, Mohab Hossam, Atef S. Hamada, Ibrahim M. Ghayad, Antti Järvenpää
For instance, Scott et al. [4] enhanced the YS of TWIP Fe-(18-22) Mn-0.6C by microalloying elements, such as Nb and Ti.
In this context, Jo et al. [6] studied the dependence of deformation mechanism and tensile properties of TWIP steel Fe–18Mn–0.6C–1.5Si on grain size.
Saha et al. [7] succeeded to fabricate nano-structure of a TWIP steel with 400 nm after applying very high cold rolling reduction of 92% with recrystallization at a low temperature.
Kannan et. al. [11] studied the corrosion behaviour of Fe-0.05C-29Mn-3.1Al-1.4Si in comparison to IF steel.
Yen et al. [15] studied the effect of vanadium carbides on the mechanical properties of TWIP steel Fe–21.6Mn–0.63C–0.87V after SRX at 850 ℃ for 60 s on a vanadium-containing TWIP steel Fe–21.6Mn–0.63C–0.87 V.
In this context, Jo et al. [6] studied the dependence of deformation mechanism and tensile properties of TWIP steel Fe–18Mn–0.6C–1.5Si on grain size.
Saha et al. [7] succeeded to fabricate nano-structure of a TWIP steel with 400 nm after applying very high cold rolling reduction of 92% with recrystallization at a low temperature.
Kannan et. al. [11] studied the corrosion behaviour of Fe-0.05C-29Mn-3.1Al-1.4Si in comparison to IF steel.
Yen et al. [15] studied the effect of vanadium carbides on the mechanical properties of TWIP steel Fe–21.6Mn–0.63C–0.87V after SRX at 850 ℃ for 60 s on a vanadium-containing TWIP steel Fe–21.6Mn–0.63C–0.87 V.
Online since: September 2025
Authors: Alex Q. Huang, Ryota Wada, Takashi Kuroi, Atsushi Shimbori, Nobuhiro Tokoro, Hiu Yung Wong
For PiN diode fabrication, the anode region with a concentration of 8.0×1019 cm-3 was formed through high temperature Al implantation at 400°C, and then an activation anneal was performed at 1700 °C for 30 min.
Circular Al-based metal contact stacks (Ti/Al/Ti/Au= 70nm/100nm/5nm/120nm) were patterned on the anode region, and Ni-based metal contact stacks (Ti/Ni/Ti/Au=20nm/90nm/5nm/120nm) were deposited on the back side of substrate for cathode electrode.
Electroluminescence (EL) images were additionally obtained under identical stress to a mesa-isolated PiN diode without proton implantation capturing an expansion of dark regions originating from the glide of stacking faults (Fig. 5).
Kimoto et al., "Understanding and reduction of degradation phenomena in SiC power devices," 2017 IEEE International Reliability Physics Symposium (IRPS), Monterey, CA, USA, 2017, pp. 2A-1.1-2A-1.7, doi: 10.1109/IRPS.2017.7936253
Veliadis et al., "Degradation and Full Recovery in High-Voltage Implanted-Gate SiC JFETs Subjected to Bipolar Current Stress," in IEEE Electron Device Letters, vol. 33, no. 7, pp. 952-954, July 2012, doi: 10.1109/LED.2012.2196674
Circular Al-based metal contact stacks (Ti/Al/Ti/Au= 70nm/100nm/5nm/120nm) were patterned on the anode region, and Ni-based metal contact stacks (Ti/Ni/Ti/Au=20nm/90nm/5nm/120nm) were deposited on the back side of substrate for cathode electrode.
Electroluminescence (EL) images were additionally obtained under identical stress to a mesa-isolated PiN diode without proton implantation capturing an expansion of dark regions originating from the glide of stacking faults (Fig. 5).
Kimoto et al., "Understanding and reduction of degradation phenomena in SiC power devices," 2017 IEEE International Reliability Physics Symposium (IRPS), Monterey, CA, USA, 2017, pp. 2A-1.1-2A-1.7, doi: 10.1109/IRPS.2017.7936253
Veliadis et al., "Degradation and Full Recovery in High-Voltage Implanted-Gate SiC JFETs Subjected to Bipolar Current Stress," in IEEE Electron Device Letters, vol. 33, no. 7, pp. 952-954, July 2012, doi: 10.1109/LED.2012.2196674