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Online since: March 2016
Authors: Mohamad Hafiz Mamat, Aadila Aziz, Ruziana Mohamed, Mohamad Rusop, Nurul Afaah Abdullah, Zuraida Khusaimi
El Mir, K.
Effect of the annealing temperature on transparency and conductivity of ZnO:Al thin films.
Effect of the annealing temperature on transparency and conductivity of ZnO:Al thin films.
Online since: August 2015
Authors: Petr M. Ogar, D.B. Gorokhov
The authors’ approach to solving this problem is given in [5-8 et al.].
El Abdi, G.
El Abdi, G.
Online since: September 2015
Authors: Dong Won Jung, D.H. Kim, Hao Yu
Principal stress distribution ; (a) 115mm sheet outer side, (b) 115mm sheet inner side, (c) 200mm sheet out side, and (d) 200mm sheet in side
Spring back calculation in the roll forming process
Fig. 4 Definition of the spring-back angle
Fig. 5 Measurement locations in the forming sheet
Kim el al.[5] with reference, Fig. 4 shows how the definition of the spring-back angle is derived, and Fig. 5 shows the measurement locationz represented as Point 1 and Point 2.
Online since: December 2011
Authors: Leo A.I. Kestens, Jurij J. Sidor, Roumen H. Petrov
Experimental
Steel with a hot band ferrite – pearlite microstructure and a chemical composition (in mass%) of 0.12%C, 1.26%Si, 2.07% Mn, 0.013% P and 0.029%Al was cold rolled to a reduction of 95%.
[4] Ibid., “Temper-Resistant 1,600 MPa/8.7%El AISI 1020 Flash Bainite Processed Steel Made in 5 Seconds,” Proc. of Materials Science and Technology (MS&T) 2009, Oct. 25–29, 2009, Pittsburgh, Pa., pp. 1337–1345
[4] Ibid., “Temper-Resistant 1,600 MPa/8.7%El AISI 1020 Flash Bainite Processed Steel Made in 5 Seconds,” Proc. of Materials Science and Technology (MS&T) 2009, Oct. 25–29, 2009, Pittsburgh, Pa., pp. 1337–1345
Online since: May 2011
Authors: Xiao Dong Zhao, Jie Yang, Shao Hua Xing
El-Mahdy, A.
Wu et.al: Materials and corrosion, Vol.61 (2010), p.428-431 [5] A.
Wu et.al: Materials and corrosion, Vol.61 (2010), p.428-431 [5] A.
Online since: July 2015
Authors: Zulkifli Abdul Rashid, Ain Munirah Ahmad, Azil Bahari Alias, M. Shahnor Bani, Ruslan Hashim, Nor Syazwani Yusoff
This disastrous phenomenon has also been widely described and discussed by several researchers such as Jones [3,4], Pritchard & Roberts [5], Raman & Grillo [6], Rashid et al [7, 8 ] and Harbawi et.al [9,10].
As described by Lisia et al., [16], the emergency crews immediately began to cool down the spheres surrounding the T61 443 sphere tank, but in a short time the metal lost its strength and exploded.
Thus the case study feasibly helps to actually get the idea of predicting overpressure impact towards the external area which are not refers to an enclosed building such as the studies made by Wingerden et al., [17, 18] and Pape et al., [19], Nolan [20].
A Review’, Journal of Occupational Safety and Health, 6(12): pg 48-67 [9] Mohanad El-Harbawi, S.
[10]Mohanad El-Harbawi, S.
As described by Lisia et al., [16], the emergency crews immediately began to cool down the spheres surrounding the T61 443 sphere tank, but in a short time the metal lost its strength and exploded.
Thus the case study feasibly helps to actually get the idea of predicting overpressure impact towards the external area which are not refers to an enclosed building such as the studies made by Wingerden et al., [17, 18] and Pape et al., [19], Nolan [20].
A Review’, Journal of Occupational Safety and Health, 6(12): pg 48-67 [9] Mohanad El-Harbawi, S.
[10]Mohanad El-Harbawi, S.
Online since: May 2024
Authors: Bouraida El Yamouni, Fadoua El Khannoussi, Abdellatif Khamlichi
Numerical Investigation of Seismic Behaviour for a Flexible Cantilever Retaining Wall with Cohesive Backfill
Bouraida El Yamouni1,a*, Fadoua El Khannoussi2,b and Abdellatif Khamlichi1,c
1Research team 3M, Laboratory ICST, National School of Applied Sciences at Tetouan, Abdelmalek Essaadi University, Tetouan, Morocco
2Research team AMSCG, Laboratory ICST, National School of Applied Sciences at Tetouan, Abdelmalek Essaadi University, Tetouan, Morocco
abelyamouni@uae.ac.ma, bfelkhannoussi@uae.ac.ma, cakhamlichi@uae.ac.ma
Keywords: Flexible retaining wall, Seismic response, Dynamic earth pressure, Cohesive soil, Analytical methods, Finite element method.
Also, analysis by Lew et al. [23] on the performance of several retaining walls under the action of some recent ground motions has reached a similar conclusion.
A comparison is also made with conventional pseudo-static analytical methods such as those of Prakash [14], Puri et al. [15] and Shukla [16].
These scaled dimensions are exactly the same as those used in a previous work by Bakr et al. [26].
In the simulations performed in this study, a partially rough interface that corresponds to the situation of the centrifuge test “model A” in Jo et al. [25] was implemented.
Also, analysis by Lew et al. [23] on the performance of several retaining walls under the action of some recent ground motions has reached a similar conclusion.
A comparison is also made with conventional pseudo-static analytical methods such as those of Prakash [14], Puri et al. [15] and Shukla [16].
These scaled dimensions are exactly the same as those used in a previous work by Bakr et al. [26].
In the simulations performed in this study, a partially rough interface that corresponds to the situation of the centrifuge test “model A” in Jo et al. [25] was implemented.
Online since: October 2010
Authors: Zhuo Hao Xiao, Jian Er Zhou, Wen Yan Luo
El-Shennawi and A.
El-Ghannam: J.
El-Ghannam: J.
Online since: November 2024
Authors: Muthia Elma, Aulia Rahma, Ibnu Adea Muhammad, Akhmad Syahid, Rhafiq Abdul Ghani, Mohd Hafiz Dzarfan Othman, Evia Salma Zaurida, Rendy Muhamad Iqbal
Harivram, E.L.
Anjum, A.L.
Harivram, E.L.
Ul-haq, E.L.
Pratiwi, E.L.
Anjum, A.L.
Harivram, E.L.
Ul-haq, E.L.
Pratiwi, E.L.
Online since: November 2012
Authors: Fernanda Margarido, Marta Cabral, Carlos A. Nogueira
The electrode materials correspond to more than 50% of the batteries weight and contain essentially nickel and rare earths (RE), and other secondary elements (Co, Mn, Al).
The cathode is essentially constituted by 6% metallic Ni, 66% Ni(OH)2, 4.3% Co(OH)2 and the anode consists mainly in 62% RENi5 and 17% of substitutes and/or additives such as Co, Mn and Al.
For cylindrical type, the battery contains approximately 32% Ni, 3.9% Co, 1.0% Mn, 0.9% Al, 4.7% La and 1.2% Ce.
For prismatic type, the resulting composition is 22% Ni, 3.1% Co, 1.2% Mn, 0.72% Al, 2.2% La and 2.6% Ce.
Abd-El Motaleb, Recovery of nickel, cobalt and some salts from spent Ni-MH batteries, Waste Manage. 28 (2008) 1159-1167
The cathode is essentially constituted by 6% metallic Ni, 66% Ni(OH)2, 4.3% Co(OH)2 and the anode consists mainly in 62% RENi5 and 17% of substitutes and/or additives such as Co, Mn and Al.
For cylindrical type, the battery contains approximately 32% Ni, 3.9% Co, 1.0% Mn, 0.9% Al, 4.7% La and 1.2% Ce.
For prismatic type, the resulting composition is 22% Ni, 3.1% Co, 1.2% Mn, 0.72% Al, 2.2% La and 2.6% Ce.
Abd-El Motaleb, Recovery of nickel, cobalt and some salts from spent Ni-MH batteries, Waste Manage. 28 (2008) 1159-1167