Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: November 2010
Authors: Jun Li Liu, Hua Wang, Jia Ning Zou
[2] Aboul-Enein S, El-Sebaii AA, Ramadan MRI and Khallaf AM: Applied Energy, Vol.78 (2004), pp.159-177
[3] Ibrahim SMA and El-Reidy MK: Review Energy ,Vol.6 (1996) No.2, pp.89-100
[4] El-Sebaii AA: Applied Energy, Vol.81 (2005), pp.33-53
Al-Juwayhel and M.M.El-Refaee: Applied Thermal Engineering, Vol.18 (1998), pp.1207-1223
[3] Ibrahim SMA and El-Reidy MK: Review Energy ,Vol.6 (1996) No.2, pp.89-100
[4] El-Sebaii AA: Applied Energy, Vol.81 (2005), pp.33-53
Al-Juwayhel and M.M.El-Refaee: Applied Thermal Engineering, Vol.18 (1998), pp.1207-1223
Online since: December 2009
Authors: Mahmoud Nili-Ahmadabadi, S. Hossein Nedjad, H. Shirazi, A. Fatehi
Hossein Nedjad et al. [9] reported preliminarily an
improvement in the tensile properties of an Fe-10Ni-7Mn maraging steel
after cold rolling for 85% and subsequent aging at 753 K.
Related values of yield strength (YS), ultimate A 200m 200m B 200m Ctensile strength (UTS) and elongation (EL %) are given in Table 1.
Related values of yield strength (YS), ultimate tensile strength (UTS) and elongation (EL%) are given in Table 2.
reduction YS (MPa ) UTS (MPa) Plastic EL% 0 NA 820 PF NA 20 NA 1040 PF NA 40 NA 1580 PF NA 60 1720 1800 1.5 80 1750 1810 2.0 90 1780 1840 2.8 NA: not-assigned; PF: premature failure stress Fig. 7.
Microstructural examinations of the cold-rolled steel represented a lamellar structure consisting of aged martensitic laths and ultrafine ferrite YS (MPa ) UTS (MPa) EL% As anneal 650 880 17 85% cold rolled 820 950 14 ECAP 1000 1110 12 b) a)grains.
Related values of yield strength (YS), ultimate A 200m 200m B 200m Ctensile strength (UTS) and elongation (EL %) are given in Table 1.
Related values of yield strength (YS), ultimate tensile strength (UTS) and elongation (EL%) are given in Table 2.
reduction YS (MPa ) UTS (MPa) Plastic EL% 0 NA 820 PF NA 20 NA 1040 PF NA 40 NA 1580 PF NA 60 1720 1800 1.5 80 1750 1810 2.0 90 1780 1840 2.8 NA: not-assigned; PF: premature failure stress Fig. 7.
Microstructural examinations of the cold-rolled steel represented a lamellar structure consisting of aged martensitic laths and ultrafine ferrite YS (MPa ) UTS (MPa) EL% As anneal 650 880 17 85% cold rolled 820 950 14 ECAP 1000 1110 12 b) a)grains.
Online since: June 2020
Authors: Noor M. Ibrahim, Eman K. Hassan
Zaidi et al., “Dopant Segregation and Heat Treatment Effects on the Electrical Properties of Polycrystalline Silicon thin Films,” Silicon, vol. 8, no. 4, pp. 513–516, 2016, doi: 10.1007/s12633-015-9359-7
El-Nahass, A.
El-Sayed, and E.
El-Zaidia, “Structural and optical properties of thermal evaporated magnesium phthalocyanine (MgPc) thin films,” Appl.
El-Nahass, A.
El-Nahass, A.
El-Sayed, and E.
El-Zaidia, “Structural and optical properties of thermal evaporated magnesium phthalocyanine (MgPc) thin films,” Appl.
El-Nahass, A.
Online since: January 2019
Authors: Jie Tao, Ming Zhi Wang, Liang Sheng Qiu, Liang Hu Cheng, Xiang Liu, Jian Shao, Xin Cao, Tao Sha Song, Han Tao Kou
The Al/Ni multilayer composite consisted of the microscale Al and Ni layers.
Gavens et al. fabricated the Al/Ni nanofoils using magnetron sputtering method [11].
That is to say, comparing with the Al/Ni multilayer composite and the Al/Al3Ni/Ni multilayer intermetallics, the Al/Ni multilayer composite exhibits much better flexural strength.
Schoenitz, E.L.
Ishihara, et al.: Scripta Materialia Vol. 44(2001), p. 1831
Gavens et al. fabricated the Al/Ni nanofoils using magnetron sputtering method [11].
That is to say, comparing with the Al/Ni multilayer composite and the Al/Al3Ni/Ni multilayer intermetallics, the Al/Ni multilayer composite exhibits much better flexural strength.
Schoenitz, E.L.
Ishihara, et al.: Scripta Materialia Vol. 44(2001), p. 1831
Online since: July 2018
Authors: Kostianyn Kushnir, Andriy Ostapovets
Three embedded atom method potentials were tested: Liu et al. potential [14],
Sun et al. potential [13] and Zhou et al. potential [21].
Structures of twin boundaries obtained by using of (a) Liu et al. potential; (b) Sun et al potential; (c) Zhou et al. potential.
Reflection twin boundary were predicted by Liu at al. and Zhou et al. potentials.
El Kadiri, The roles of grain boundary dislocations and disclinations in the nucleation of {1 0 -1 2} twinning, Acta Mater. 63 (2014) 1-15
El Kadiri, Impact of deformation faceting on {10-11}, {10-12} and {10-13} embryonic twin nucleation in hexagonal close-packed metals, Acta Mater. 70 (2014),137–161
Structures of twin boundaries obtained by using of (a) Liu et al. potential; (b) Sun et al potential; (c) Zhou et al. potential.
Reflection twin boundary were predicted by Liu at al. and Zhou et al. potentials.
El Kadiri, The roles of grain boundary dislocations and disclinations in the nucleation of {1 0 -1 2} twinning, Acta Mater. 63 (2014) 1-15
El Kadiri, Impact of deformation faceting on {10-11}, {10-12} and {10-13} embryonic twin nucleation in hexagonal close-packed metals, Acta Mater. 70 (2014),137–161
Online since: August 2020
Authors: Ahmed M. Ismail, Moustapha S. Mansour, Dina Ahmed El-Gayar, Y.H. Farid
Pervez, et al.
El-Nadi, J.
[21] El-Batouti, Mervette, " Removal of copper metal by cementation using a rotating iron cylinder", Journal of colloid and interface science, 2005, 283(1), pp. 123-129
El-Taweela,M.H.
El-Naqearaa, " Mass and heat transfer enhancement at the wall of cylindrical agitated vessel by turbulence promoters", Chemical Engineering and Processing: Process Intensification, 2014, 80, pp. 34-50
El-Nadi, J.
[21] El-Batouti, Mervette, " Removal of copper metal by cementation using a rotating iron cylinder", Journal of colloid and interface science, 2005, 283(1), pp. 123-129
El-Taweela,M.H.
El-Naqearaa, " Mass and heat transfer enhancement at the wall of cylindrical agitated vessel by turbulence promoters", Chemical Engineering and Processing: Process Intensification, 2014, 80, pp. 34-50
Online since: August 2011
Authors: Amin Chegenizadeh, Hamid Nikraz
Other researchers (Nataraj and McManis, 1997; Al Wahab and El-Kedrah, 1995; Puppala et al., 2006; Miller and Rifai, 2004; Ozkul et al., 2007; Kumar Tabor, 2003) also reported similar results.
In contrast, other researcher such as Ozkul et al, 2007 reported not significant changes on compaction parameter by fiber inclusion.
Reference [1] AlWahab, R.M. and Al Quirma, H.H. (1995) Fiber Reinforced Cohesive Soils for Application in Compacted Earth Structures, Proceedings of Geosynthetics ’95, IFAI, Vol. 2, Nashville, Tennessee, USA, March 1995, pp. 433-476
[2] Al Wahab, R.
M., and El-Kedrah, M.
In contrast, other researcher such as Ozkul et al, 2007 reported not significant changes on compaction parameter by fiber inclusion.
Reference [1] AlWahab, R.M. and Al Quirma, H.H. (1995) Fiber Reinforced Cohesive Soils for Application in Compacted Earth Structures, Proceedings of Geosynthetics ’95, IFAI, Vol. 2, Nashville, Tennessee, USA, March 1995, pp. 433-476
[2] Al Wahab, R.
M., and El-Kedrah, M.
Online since: February 2011
Authors: Siti Zuliana Salleh, Zulkifli Ahmad, Ismail Hanafi
Since both shows promising properties hence the combinations of both filler is expected to exhibit desirable properties of the individual constituents just like Ko et al. [3] have proven in their work.
El-Sabbagh et al. [11] also stated similar results.
Sajjayanukul et al. [12] explained that the due to the dilution effect caused the amount of deformable rubber is diluted by the underfomable rigid particles of carbon black.
Ismail et al. [13] stated that fast and unstable propagation is believed to occur leading to catastrophic failure.
El-Sabbagh, M.N.
El-Sabbagh et al. [11] also stated similar results.
Sajjayanukul et al. [12] explained that the due to the dilution effect caused the amount of deformable rubber is diluted by the underfomable rigid particles of carbon black.
Ismail et al. [13] stated that fast and unstable propagation is believed to occur leading to catastrophic failure.
El-Sabbagh, M.N.