Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: March 2023
Authors: Lazhar Hadjeris, Tarek Diab Ounis, Hicham Bahtoun, Sabrina Iaiche
Shaba et al. have reported a conclusion [18], which is consistent with the obtained observations in this paper.
Kaenphakdee et al. explain this extensive aggregation due to the particle requirements to reduce the surface energy and increase stability [30].
Natrchalayuth et al have found that the ZnO morphology of hexagonal prism crystals obtained from hydrothermal method using Zn acetate.
[57] Al-Garni, T.; A.Y.
Abduh, N.; Al-Kahtani, A.; Aouissi, A.
Kaenphakdee et al. explain this extensive aggregation due to the particle requirements to reduce the surface energy and increase stability [30].
Natrchalayuth et al have found that the ZnO morphology of hexagonal prism crystals obtained from hydrothermal method using Zn acetate.
[57] Al-Garni, T.; A.Y.
Abduh, N.; Al-Kahtani, A.; Aouissi, A.
Online since: August 2019
Authors: Hadi Akbari-Zadeh, Ahmad Shanei, Hamid Fakhimikabir, Neda Attaran
Holland et al. [34] showed that the presence of particles reduced the cavitation threshold and led to more bubble production.
Chem Eng J. 340 (2018) 155–172 [10] Harada Y, Ogawa K, Irie Y, et al Ultrasound activation of TiO2 in melanoma tumors.
J Ultrasound Med. 32 (2013) 475–483 [25] Sazgarnia A, Shanei A, Meibodi NT, et al A Novel Nanosonosensitizer for Sonodynamic Therapy.
Phys Medica. 31 (2015) 210–218 [29] Patra HK, Banerjee S, Chaudhuri U, et al Cell selective response to gold nanoparticles.
Small. 3 (2007) 1941–1949 [31] Kang B, Mackey MA, El-Sayed MA Nuclear targeting of gold nanoparticles in cancer cells induces DNA damage, causing cytokinesis arrest and apoptosis.
Chem Eng J. 340 (2018) 155–172 [10] Harada Y, Ogawa K, Irie Y, et al Ultrasound activation of TiO2 in melanoma tumors.
J Ultrasound Med. 32 (2013) 475–483 [25] Sazgarnia A, Shanei A, Meibodi NT, et al A Novel Nanosonosensitizer for Sonodynamic Therapy.
Phys Medica. 31 (2015) 210–218 [29] Patra HK, Banerjee S, Chaudhuri U, et al Cell selective response to gold nanoparticles.
Small. 3 (2007) 1941–1949 [31] Kang B, Mackey MA, El-Sayed MA Nuclear targeting of gold nanoparticles in cancer cells induces DNA damage, causing cytokinesis arrest and apoptosis.
Online since: February 2024
Authors: Muhammad Fadhlullah Abd Shukur, Mohamed Shuaib Mohamed Saheed, Cheng Seong Khe, Kwok Feng Chong, Gomaa Abdelgawad Mohammed Ali, Eslam Atef Abdelaziz Aboelazm
[13] Thalji, M.R., et al., Al3+ ion intercalation pseudocapacitance study of W18O49 nanostructure.
[14] HO, M.Y., et al., A REVIEW OF METAL OXIDE COMPOSITE ELECTRODE MATERIALS FOR ELECTROCHEMICAL CAPACITORS.
[26] El-Gendy, A.A., et al., Enhanced magnetic anisotropy in cobalt-carbide nanoparticles.
[36] Ali, G.A., et al., Co3O4/SiO2 nanocomposites for supercapacitor application.
[38] Ali, G.A.M., et al., Capacitive performance of cysteamine functionalized carbon nanotubes.
[14] HO, M.Y., et al., A REVIEW OF METAL OXIDE COMPOSITE ELECTRODE MATERIALS FOR ELECTROCHEMICAL CAPACITORS.
[26] El-Gendy, A.A., et al., Enhanced magnetic anisotropy in cobalt-carbide nanoparticles.
[36] Ali, G.A., et al., Co3O4/SiO2 nanocomposites for supercapacitor application.
[38] Ali, G.A.M., et al., Capacitive performance of cysteamine functionalized carbon nanotubes.
Online since: March 2019
Authors: Hao Tang, Jun Xu, Huan Ying Chi, Kai Xu, Song Hu, Saad A. El-Sayed, Jun Xiang, Mohamed E. Mostafa, Sheng Su, Yi Wang
Kijo-Kleczkowska et al. [5] experimentally investigated the mechanisms and kinetics of sewage sludge, coal and biomass combustion and co-combustion under a stream of air using of 10 mm spherical pellet.
Mason et al. [15] stated that heat transfer per unit of mass decreases as the aspect ratio of fuel particle decreases which in turn increasing the volatiles burning time.
Corrêa Bisognin et al. [17] investigated that the spherical shape achieves the highest heat transfer coefficient in fluidized bed due to the minor changes in the hydrodynamics of combustor resulted from this shape.
The effect of particle shape and size on combustion characteristics of single biomass particles was investigated by Momeni et al. [19] who studied the ignition, devolatization, and burnout of spherical and cylindrical biomass particles with different aspect ratios.
Biswas et al. [9] and Rhén et al. [10] stated that the combustion time of single cylindrical wood pellet increased with increasing the pellet density.
Mason et al. [15] stated that heat transfer per unit of mass decreases as the aspect ratio of fuel particle decreases which in turn increasing the volatiles burning time.
Corrêa Bisognin et al. [17] investigated that the spherical shape achieves the highest heat transfer coefficient in fluidized bed due to the minor changes in the hydrodynamics of combustor resulted from this shape.
The effect of particle shape and size on combustion characteristics of single biomass particles was investigated by Momeni et al. [19] who studied the ignition, devolatization, and burnout of spherical and cylindrical biomass particles with different aspect ratios.
Biswas et al. [9] and Rhén et al. [10] stated that the combustion time of single cylindrical wood pellet increased with increasing the pellet density.
Online since: June 2019
Authors: Mohammed Ashikur Rahman, Afidalina Tumian
Black colour indicates that the variable is applied in the paper
Reviewed papers
Age
Admission type
BMI
Body temperature
Chronic failure
Delirium
Ejection fraction
Heart rate
Length of stay (ICU)
Length of stay (Hospital)
Mortality in ICU
Mortality in hospital
O2 saturation in blood
Previous history
Pulmonary hypertension
Respiratory rate
Right ventricular
Serum Creatinine
Sex
Systolic blood pressure
Ventilation mode
White blood cell
Attin et al., (2015) [27]
Augoustides et al., (2006) [28]
Beaulieu-Jones et al., (2017) [29]
Behrooz Farzanegan, (2017) [30]
Calvert et al., (2016a) [31]
Calvert et al., (2016b) [32]
Che et al., (2016) [33]
Desautels et al., (2016) [34]
Ghassemi et al., (2014) [35]
Kury et al., (2015) [36]
K.
Ross et al., (2017) [15] Lee et al., (2015) [37] N. et al., (2014) [38] Nemati et al., (2017) [39] Nejla Tilouche et al., (2017) [40] Ong et al., (2012) [10] Panahiazar et al. (2015) [41] See et al., (2014) [42] Seymour et al., (2016) [43] Van dan Boogaard et al., (2010) [44] Zhang and Hong, (2017) [45] Our second research question attempts to identify clinical assessment tools that are used in the selected reviewed papers.
Bader–El–Den, and J.
Al-badareen, M.
LE GALL et al., “A simplified acute physiology score for ICU patients,” Crit.
Ross et al., (2017) [15] Lee et al., (2015) [37] N. et al., (2014) [38] Nemati et al., (2017) [39] Nejla Tilouche et al., (2017) [40] Ong et al., (2012) [10] Panahiazar et al. (2015) [41] See et al., (2014) [42] Seymour et al., (2016) [43] Van dan Boogaard et al., (2010) [44] Zhang and Hong, (2017) [45] Our second research question attempts to identify clinical assessment tools that are used in the selected reviewed papers.
Bader–El–Den, and J.
Al-badareen, M.
LE GALL et al., “A simplified acute physiology score for ICU patients,” Crit.
Online since: January 2022
Authors: Giovina Marina La Vecchia, Annalisa Pola, Marcello Gelfi, Lorenzo Montesano, Marialaura Tocci, Pietro Tonolini
Introduction
Different techniques are nowadays available for the production of Al-Si parts.
Al-Si alloys have become also very popular Al alloys for applications in the laser-based powder bed fusion process [5].
Concerning the tribological behavior of SS hypoeutectic Al-Si alloy, Dey et al. [12] compared the wear performance of A356 alloy produced by rheocasting and gravity casting.
El-Gohry, Microstructure and mechanical properties of extruded Al–Si alloy (A356) in the semi-solid state, Mater.
Hu, Age-hardening behavior of cast Al–Si base alloy, Mater.
Al-Si alloys have become also very popular Al alloys for applications in the laser-based powder bed fusion process [5].
Concerning the tribological behavior of SS hypoeutectic Al-Si alloy, Dey et al. [12] compared the wear performance of A356 alloy produced by rheocasting and gravity casting.
El-Gohry, Microstructure and mechanical properties of extruded Al–Si alloy (A356) in the semi-solid state, Mater.
Hu, Age-hardening behavior of cast Al–Si base alloy, Mater.
Online since: November 2011
Authors: Geng Zhong, Bei Yu Liu, Jia Ying Peng, Xiao Man Zeng, Hong Yan Zheng
Some physicochemical properties of the two DFs were evaluated also, including the swelling capacity, water holding capacity (WHC), and oil holding capacity (OHC), et al.
Starch content was investigated by the method of Englyst et al (1992) [8].
(1) 2.4.2 Water holding capacity (WHC) The evaluation of WHC was performed as previously described (Esposito et al., 2005) [12] with minor modification.
In contrast to their WHC, the OHC here are higher than Chia FRF [17] (2.02g oil/g sample; Alfredo et al., 2008), and residues of C.ensiformis, barley and passion fruit [21] (1.99g oil/g sample; Cruz-Salazar, 2002).
Ortuño, Propiedades funcionales de la fibra dietética: mecanismos de acción en el tracto gastrointestinal.
Starch content was investigated by the method of Englyst et al (1992) [8].
(1) 2.4.2 Water holding capacity (WHC) The evaluation of WHC was performed as previously described (Esposito et al., 2005) [12] with minor modification.
In contrast to their WHC, the OHC here are higher than Chia FRF [17] (2.02g oil/g sample; Alfredo et al., 2008), and residues of C.ensiformis, barley and passion fruit [21] (1.99g oil/g sample; Cruz-Salazar, 2002).
Ortuño, Propiedades funcionales de la fibra dietética: mecanismos de acción en el tracto gastrointestinal.
Online since: January 2022
Authors: Yong Lin Kang, Ming Fan Qi, Yuan Hao Zheng, Ji Cheng Wang, Gu Nan Li, Ying Zhang
Doutre et al. [8] proposed the SEED pulping process.
The liquidus and solidus temperatures of the Al-8Si and Al-6Si alloys are 623 ℃ and 565 ℃ and 635 °C and 570 °C, respectively.
Table 1 Chemical compositions (wt.%) of the Al-8Si and Al-6Si alloys Alloy Si Fe Mg Zn Sr Al Al-8Si 7.73 0.53 0.03 0.02 - Bal.
(a) (b) (d) (c) Fig. 5 Comparison of microstructures between traditional die-casting (a and c ) and ACSR rheological die-casting (b and d) parts of Al-8Si (a and b) and Al-6Si (c and d) alloys Table 3 Average size and shape factor of the α1-Al grains and the secondary grains of ACSR rheological die-casting and traditional die-casting Al-8Si and Al-6Si alloys Alloy Process α1-Al grains α2-Al grains Average size (μm) Shape factor Average size (μm) Shape factor Al-8Si Traditional die-casting 47 0.48 2.8 0.74 Rheological die-casting 26 0.92 1.8 0.93 Al-6Si Traditional die-casting 93 0.53 9.5 - Rheological die-casting 47 0.85 6.2 - Table 4 lists the mechanical tensile results of Al-8Si alloy and Al-6Si alloy produced by traditional die-casting and ACSR rheological die-casting processes.
Table 4 Tensile properties and thermal conductivity results of Al-8Si and Al-6Si alloys prepared by traditional die-casting and ACSR rheological die-casting processes Alloy Process Tensile properties Thermal conductivity UTS(MPa) YS(MPa) EL(%) W.
The liquidus and solidus temperatures of the Al-8Si and Al-6Si alloys are 623 ℃ and 565 ℃ and 635 °C and 570 °C, respectively.
Table 1 Chemical compositions (wt.%) of the Al-8Si and Al-6Si alloys Alloy Si Fe Mg Zn Sr Al Al-8Si 7.73 0.53 0.03 0.02 - Bal.
(a) (b) (d) (c) Fig. 5 Comparison of microstructures between traditional die-casting (a and c ) and ACSR rheological die-casting (b and d) parts of Al-8Si (a and b) and Al-6Si (c and d) alloys Table 3 Average size and shape factor of the α1-Al grains and the secondary grains of ACSR rheological die-casting and traditional die-casting Al-8Si and Al-6Si alloys Alloy Process α1-Al grains α2-Al grains Average size (μm) Shape factor Average size (μm) Shape factor Al-8Si Traditional die-casting 47 0.48 2.8 0.74 Rheological die-casting 26 0.92 1.8 0.93 Al-6Si Traditional die-casting 93 0.53 9.5 - Rheological die-casting 47 0.85 6.2 - Table 4 lists the mechanical tensile results of Al-8Si alloy and Al-6Si alloy produced by traditional die-casting and ACSR rheological die-casting processes.
Table 4 Tensile properties and thermal conductivity results of Al-8Si and Al-6Si alloys prepared by traditional die-casting and ACSR rheological die-casting processes Alloy Process Tensile properties Thermal conductivity UTS(MPa) YS(MPa) EL(%) W.