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Online since: July 2015
Authors: Azmizam Manie Mani, Afishah Alias, Khairul Anuar Mohamad, Farah Lyana Shain, Lam Mui Li, Umar Faruk Shuib, Saafie Salleh
AZO thin films on different deposition pressure were successfully deposited onto glass substrate with preferential hexagonal wurtzite with the ( 0 0 2) orientation similar to the XRD peak pattern for standard ZnO (JCPDS 36-1451) [10] and no other phases have been observed suggest that there are no impurity of Al compound shows in XRD pattern suggesting Al3+ ions filled or substitutes the Zn2+ site in ZnO lattice or either Al3+ ions occupy the interstitial sites of ZnO [11].
C, a El-Shaer,“Zinc oxide nanorod based photonic devices: recent progress in growth, light emitting diodes and lasers.,” Nanotechnology, vol. 20, no. 33, p. 332001, Aug. 2009
Hou, “Effects of deposition power and pressure on the crystallinity of Al-doped ZnO thin films at glass substrates by low temperature RF magnetron sputtering,” vol. 48, pp. 214–222, 2012
Yang, “Effect of substrate temperature on the structural and optical properties of ZnO and Al-doped ZnO thin films prepared by dc magnetron sputtering,” Opt.
Huang, “Influence of working pressure on structural and optoelectronic properties of Al-doped ZnO thin films,” pp. 569–572, 2014.
C, a El-Shaer,“Zinc oxide nanorod based photonic devices: recent progress in growth, light emitting diodes and lasers.,” Nanotechnology, vol. 20, no. 33, p. 332001, Aug. 2009
Hou, “Effects of deposition power and pressure on the crystallinity of Al-doped ZnO thin films at glass substrates by low temperature RF magnetron sputtering,” vol. 48, pp. 214–222, 2012
Yang, “Effect of substrate temperature on the structural and optical properties of ZnO and Al-doped ZnO thin films prepared by dc magnetron sputtering,” Opt.
Huang, “Influence of working pressure on structural and optoelectronic properties of Al-doped ZnO thin films,” pp. 569–572, 2014.
Online since: February 2013
Authors: Gui Ping Liu, Xing Zhu, Yong Ci Liu, Qi Rui Zhao
References
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Environmental Science Vol.1(1995), p. 12-15(.in Chinese) [6] Deshuai Zhang, Xiaodong Zhang, Zhongyi Zhang, et al.
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Online since: March 2017
Authors: Petr Zuna, Jakub Horník, Jaroslav Málek
Firrao, et al., Influence of the microstructure on fatigue and fracture toughness properties of large heat-treated mold steels, Materials Science & Engineering A 559 (2012) 371-383
Briant, E.L.
Zuna, et al., Evaluation of Kinetics of Austenite Graingrowth of Selected Steels used for Heavy Forgings.
Li, et al., Effect of microstructure evolution on strength and impact toughness of G18CrMo2-6heat-resistant steel during tempering, Materials Science & Engineering A 604 (2014) 103-110
Leea, et al., Characterization of transition behaviour in SA508 Gr.4N Ni–Cr–Mo low alloy steels with microstructural alteration by Ni and Cr contents, Materials Science and Engineering A 529 (2011) 156-163.
Briant, E.L.
Zuna, et al., Evaluation of Kinetics of Austenite Graingrowth of Selected Steels used for Heavy Forgings.
Li, et al., Effect of microstructure evolution on strength and impact toughness of G18CrMo2-6heat-resistant steel during tempering, Materials Science & Engineering A 604 (2014) 103-110
Leea, et al., Characterization of transition behaviour in SA508 Gr.4N Ni–Cr–Mo low alloy steels with microstructural alteration by Ni and Cr contents, Materials Science and Engineering A 529 (2011) 156-163.
Online since: December 2023
Authors: Loredana Santo, Fabrizio Quadrini, Denise Bellisario, Leandro Iorio, Alice Proietti
At the state of the art, traditional materials, such as aluminum (Al), and hydrogen-rich polymers, like PE, have shown the better shielding behavior [5, 8].
Depending on the orbit, Al can be replaced by PE in such a way to reduce the payload without affecting the shielding effectiveness [9].
The latter solution is particularly promising because of the materials ability to absorb the radiation and convert it into heat; both Al and PE have a good shielding ability and thus they can be used to manufacture passive shields.
El-Nachef, M.L.
Al-Choboq, A.
Depending on the orbit, Al can be replaced by PE in such a way to reduce the payload without affecting the shielding effectiveness [9].
The latter solution is particularly promising because of the materials ability to absorb the radiation and convert it into heat; both Al and PE have a good shielding ability and thus they can be used to manufacture passive shields.
El-Nachef, M.L.
Al-Choboq, A.
Online since: May 2013
Authors: Jun Ping Meng, Yu Yao, Guo Qi Zhao, Li Ran Wang, Li Ye Ma
Areole is capable of mass production of hot stamping plates such as USIBOR1500, USIBOR1500P, hot galvanizing USIBOR1500 and USIBOR1500 with Al-Si plating.
Hot stamping plate of USIBOR1500 with Al-Si plating will not generate scale mark because of the Al-Si plating.
USIBOR1500 P is a pre-applied material with a 25 μm Al-Si hot dip coating (90% of which is Al, thus called Alusi coating).
Luo, et al.: Journal of plasticity engineering, 2009, 16(4):39-43 [4] B.
Shapiro : 7th European LS-DYNA conference in 2009 [5] Kolleck R, Veit R and Merklein M, et al.: CIRP Annals-Manufacturing Technology, 2009, 58:275-278
Hot stamping plate of USIBOR1500 with Al-Si plating will not generate scale mark because of the Al-Si plating.
USIBOR1500 P is a pre-applied material with a 25 μm Al-Si hot dip coating (90% of which is Al, thus called Alusi coating).
Luo, et al.: Journal of plasticity engineering, 2009, 16(4):39-43 [4] B.
Shapiro : 7th European LS-DYNA conference in 2009 [5] Kolleck R, Veit R and Merklein M, et al.: CIRP Annals-Manufacturing Technology, 2009, 58:275-278
Online since: April 2009
Authors: Daniel Monceau, Eric Andrieu, Claude Mijoule, El Hocine Megchiche
Mijoule
1,a
, El Hocine Megchiche
2,b
, E.
In order to estimate the temperature corresponding to ∆a/a0, we used the analytical form given by Suh et al. [15] for nickel.
In order to estimate the temperature corresponding to ∆a/a0, we used the analytical form given by Suh et al. [15] for nickel.
Online since: December 2012
Authors: Ibram Ganesh, P.S.C. Sekhar, G. Padmanabham, G. Sundararajan
For the synthesis of Li (0.2, 0.4, 0.6, 0.8, 1.0, 2.0, 4.0, 6.0, 8.0 and 10 at. wt.%) and Al (0.5 at. wt.%) co-doped ZnO powders, aluminum nitrate (Al(NO3)3.9H2O) was employed as the source of Al.
Abu El-Fadl, E.M.
El-Maghraby, G.A.
Mohamed, M. bd El-Moiz, Rashad, Physica B: Condensed Matter, 370 (1-4) (2005) 158-167
Al-Sayyed, S.
Abu El-Fadl, E.M.
El-Maghraby, G.A.
Mohamed, M. bd El-Moiz, Rashad, Physica B: Condensed Matter, 370 (1-4) (2005) 158-167
Al-Sayyed, S.
Online since: June 2018
Authors: Mahmoud Rabah
An increased bond order in comparison to Ga or Al at the same site was traced back.
Barcova, et al., [9] reported thermal decomposition of almandine garnet from Zoltye Vody, Ukraine.
Zboril et al. [10] showed that propel-type garnet undergo oxidative decomposition at 1200°C.
During this destructive decomposition, Fe2+ predominantly oxidized and incorporated into the spinel structure of Mg(Al,Fe)2O4.
Garnet samples were mined from the Ras Abu Rudeis, and El Tor places at the eastern and south offshore of Sinai, Egypt.
Barcova, et al., [9] reported thermal decomposition of almandine garnet from Zoltye Vody, Ukraine.
Zboril et al. [10] showed that propel-type garnet undergo oxidative decomposition at 1200°C.
During this destructive decomposition, Fe2+ predominantly oxidized and incorporated into the spinel structure of Mg(Al,Fe)2O4.
Garnet samples were mined from the Ras Abu Rudeis, and El Tor places at the eastern and south offshore of Sinai, Egypt.
Online since: March 2013
Authors: Jian Xin Xie, Ji Li Liu, Hai You Huang, Xu Xu
%Al alloy, rolling, recrystallization, martensite.
Yu, A fabrication method for Cu-Al alloy by continuous unidirectional solidification, CN Patent, 200610011120.7 [7] J.P.
Xie, Maximum steady-state drawing velocity of Cu-12%Al wires during OCC, Chin J Nonferrous Met, 21 (2011) 171-178
%Al alloy through texture control by Ohno continuous casting process, Mater Lett, 65 (2011) 1123-1126
Kainuma, Phase equilibria in the Cu-rich portion of the Cu-Al binary system, J Alloy Compd, 264 (1998) 201-208.
Yu, A fabrication method for Cu-Al alloy by continuous unidirectional solidification, CN Patent, 200610011120.7 [7] J.P.
Xie, Maximum steady-state drawing velocity of Cu-12%Al wires during OCC, Chin J Nonferrous Met, 21 (2011) 171-178
%Al alloy through texture control by Ohno continuous casting process, Mater Lett, 65 (2011) 1123-1126
Kainuma, Phase equilibria in the Cu-rich portion of the Cu-Al binary system, J Alloy Compd, 264 (1998) 201-208.
Online since: May 2019
Authors: Wesley Walker, Rudolf Marloth, Ye Thura Hein, Omar S. Es-Said
These findings were confirmed by Venkateswarlu et al. and Al-Sulaiman et al. [4,25].
[11] El-Aty, Ali Abd, Yong Xu, Xunzhong Guo, Shihong Zhang, Yan Ma, and Dayong Chen.
Al-Sulaiman, A.
Al-Mithin, M.
Al-Karim.
[11] El-Aty, Ali Abd, Yong Xu, Xunzhong Guo, Shihong Zhang, Yan Ma, and Dayong Chen.
Al-Sulaiman, A.
Al-Mithin, M.
Al-Karim.