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Investigation on the Effect of Complexing Agents and Concentrations on Electrodeposition of ZnS Film
Online since: October 2013
Authors: Ke Gao Liu, Lu Dan Shi, Fan Fan
Introduction
ZnS (zinc sufide) materials formed by Ⅱ B group element zinc and Ⅶ A group element sulphur, is a kind of compound semiconductor materials.
Solar Energy Materials & Solar Cells, 1997, 49: 291~297 [3] Jackson P, Hariskos D, Lotter E, et al.
Materials research bulletin, 2004, 39(12): 1967-1972
Journal of crystal growth, 2005, 285(1): 66-75
Journal of Alloys and Compounds, 2012, 526: 25-30.
Solar Energy Materials & Solar Cells, 1997, 49: 291~297 [3] Jackson P, Hariskos D, Lotter E, et al.
Materials research bulletin, 2004, 39(12): 1967-1972
Journal of crystal growth, 2005, 285(1): 66-75
Journal of Alloys and Compounds, 2012, 526: 25-30.
Online since: September 2018
Authors: Luciano Pessanha Moreira, Rafael Oliveira Santos, Marcelo Costa Cardoso, Lílian Barros da Silveira, Ladario da Silva, Fabiane Roberta Freitas da Silva, Maria Carolina dos Santos Freitas
Nilsson: Journal of Materials Processing Technology Vol. 214 (2014), p. 1190
[4] American Society for Testing and Materials.
[8] J.Z.Gronostajski and Z.Zimniak: Journal of Materials Processing Technology Vol. 34 (1992), p. 457
Freitas: Materials Science Forum Vol. 869 (2016), p. 532
Wei: International Journal of Mechanical Sciences Vol. 67 (2013), p. 100
[4] American Society for Testing and Materials.
[8] J.Z.Gronostajski and Z.Zimniak: Journal of Materials Processing Technology Vol. 34 (1992), p. 457
Freitas: Materials Science Forum Vol. 869 (2016), p. 532
Wei: International Journal of Mechanical Sciences Vol. 67 (2013), p. 100
Online since: July 2014
Authors: Er Liang Liu, Hong Yan Ju, Zhen Li, Yong Chun Zheng, Teng Da Wang
Experimental procedure
Workpiece Materials.Workpiece material is Ti6Al4V in the experiments.
Tool material and geometry parameters.Titanium is a material difficult to process.
In the cutting process of titanium alloy, high cutting temperature make the chemical reaction happened between tool materials and gas medium or between workpiece material and gas medium.
References [1] Jawaid A, Sharif S, Koksal S,Evaluation of wear mechanisms of coated carbide tools when face milling titanium alloy,Journal of Materials Processing Technology. (2003), 99(3):266-274
[7] Su Yu,The development of cryogenic MQL device and Mechanism of cryogenic high-speed cutting difficult to cut materials research, [D], Nanjing University of Aero.
Tool material and geometry parameters.Titanium is a material difficult to process.
In the cutting process of titanium alloy, high cutting temperature make the chemical reaction happened between tool materials and gas medium or between workpiece material and gas medium.
References [1] Jawaid A, Sharif S, Koksal S,Evaluation of wear mechanisms of coated carbide tools when face milling titanium alloy,Journal of Materials Processing Technology. (2003), 99(3):266-274
[7] Su Yu,The development of cryogenic MQL device and Mechanism of cryogenic high-speed cutting difficult to cut materials research, [D], Nanjing University of Aero.
Online since: June 2024
Authors: Abdullah Dhayea Assi
Kattan, “Mechanics of Composite Materials with MATLAB’, Springer-Verlag Berlin Heidelberg 2005
Sandwich panel cores for blast applications: Materials and graded density.
Kollari, “Mechanics of Composite Materials”, Springer-Verlag Berlin Heidelberg 2003
Kaw, “Mechanics of Composite Materials”, the Taylor & Francis ,2006
Al-Qadisiyah Journal for Engineering Sciences, Vol. 13, No.3,2020
Sandwich panel cores for blast applications: Materials and graded density.
Kollari, “Mechanics of Composite Materials”, Springer-Verlag Berlin Heidelberg 2003
Kaw, “Mechanics of Composite Materials”, the Taylor & Francis ,2006
Al-Qadisiyah Journal for Engineering Sciences, Vol. 13, No.3,2020
Online since: April 2022
Authors: Petr Urban, Francisco G. Cuevas, Fátima Ternero Fernández, Raquel Astacio Lopez, Rosa María Aranda Louvier
Cuevas2,e
1Advanced Materials Engineering Group, Escuela Técnica Superior de Ingeniería, Universidad de Sevilla, 41092 Sevilla, Spain
2Department of Chemical Engineering, Physical Chemistry and Materials Science, Escuela Técnica Superior de Ingeniería, Universidad de Huelva, 21071 Huelva, Spain
apurban@us.es, bfternero@us.es, crosamaria.aranda@dqcm.uhu.es, drastacio@us.es efgcuevas@dqcm.uhu.es
Keywords: amorphization; crystallization; titanium; aluminium; nickel; mechanical alloying
Abstract.
The Ti-Al-Ni crystalline alloys are attractive low-density materials with excellent properties at high temperatures [4].
Fischer, Modeling concepts for intermetallic titanium aluminides, Progress in Materials Science. 81 (2016) 55-124, 10.1016/j.pmatsci.2016.01.001 [5] R.M.
Cuevas, Structure and Size Distribution of Powders Produced from Melt-Spun Fe-Si-B Ribbons, Key Engineering Materials. 876 (2021) 25-30, 10.4028/www.scientific.net/KEM.876.25 [6] P.
Cintas Físico, Solid State Amorphization of Ti60Si40 Alloy via Mechanical Alloying, Key Engineering Materials. 876 (2021) 7-12, 10.4028/www.scientific.net/KEM.876.7 [7] R.
The Ti-Al-Ni crystalline alloys are attractive low-density materials with excellent properties at high temperatures [4].
Fischer, Modeling concepts for intermetallic titanium aluminides, Progress in Materials Science. 81 (2016) 55-124, 10.1016/j.pmatsci.2016.01.001 [5] R.M.
Cuevas, Structure and Size Distribution of Powders Produced from Melt-Spun Fe-Si-B Ribbons, Key Engineering Materials. 876 (2021) 25-30, 10.4028/www.scientific.net/KEM.876.25 [6] P.
Cintas Físico, Solid State Amorphization of Ti60Si40 Alloy via Mechanical Alloying, Key Engineering Materials. 876 (2021) 7-12, 10.4028/www.scientific.net/KEM.876.7 [7] R.
Online since: March 2015
Authors: Bao Qi Chen, Ying Xian Li, Xiao Qin Li
The model is regarded as one of the most comprehensive damage plasticity models for concrete-like materials in transient analysis codes [11].
“Crack band theory for fracture of concrete”, Materials and Structures, Vol. 16, No. 3, pp. 155–177
W. , Simons, D. (1997), “A plasticity concrete material model for DYNA3D”, International Journal of Impact Engineering Vol. 19, No. 9-10, pp.847-873
[9] Petersson, P.E. (1981), “Crack growth and development of fracture zone in plain concrete and similar materials”, Report TVBM-1006, Lund Institute of Technology, Lund, Sweden
[11] Tu, Z.G., Lu, Y. (2009), “Evaluation of typical concrete material models used in hydrocodes for high dynamic response simulations”, International Journal of Impact Engineering, Vol.36, No.1, pp 132-146
“Crack band theory for fracture of concrete”, Materials and Structures, Vol. 16, No. 3, pp. 155–177
W. , Simons, D. (1997), “A plasticity concrete material model for DYNA3D”, International Journal of Impact Engineering Vol. 19, No. 9-10, pp.847-873
[9] Petersson, P.E. (1981), “Crack growth and development of fracture zone in plain concrete and similar materials”, Report TVBM-1006, Lund Institute of Technology, Lund, Sweden
[11] Tu, Z.G., Lu, Y. (2009), “Evaluation of typical concrete material models used in hydrocodes for high dynamic response simulations”, International Journal of Impact Engineering, Vol.36, No.1, pp 132-146
Online since: November 2024
Authors: Ni Nyoman Rupiasih, Anak Agung Sagung Indah Candra Putri, Cokorda Andi Janawi Tanaya, Putu Sanna Yustiantara, Eka Indra Setiawan, I.M.A. Gelgel Wirasuta
Dahlizar, and Supandi, The Mechanism of Action of Fatty Acid Penetration Enhancers in Transdermal Formulations: A Review, Pharmaceutical and Biomedical Sciences Journal, 3 (2021)1-8
Mishra, Review Article: On Nanoemulsion, World Journal of Pharmacy and Pharmaceutical Science, 3 (2014) 258-274
Guadix, Optimization of oil extraction from sardine (Sardina pilchardus) by hydraulic pressing, International Journal of Food Science and Technology, 49 (2014) 2167-2175
Series: Materials Science and Engineering, 578 (2019) 1-8
Nanoemulsion, Traditional Medicine Journal, 23 (2018) 84-90
Mishra, Review Article: On Nanoemulsion, World Journal of Pharmacy and Pharmaceutical Science, 3 (2014) 258-274
Guadix, Optimization of oil extraction from sardine (Sardina pilchardus) by hydraulic pressing, International Journal of Food Science and Technology, 49 (2014) 2167-2175
Series: Materials Science and Engineering, 578 (2019) 1-8
Nanoemulsion, Traditional Medicine Journal, 23 (2018) 84-90
Online since: September 2012
Authors: Wei Li, Yu Shu Zhong
PbTiO3 nanometre material with distinct crystal phase were synthesized selectively with different Na2Ti4O9 precursors and their photocatalytic activities were investigated for 2-propanol degradation in gas phase.
T: Journal of Molecular Catalysis A: Chemical, VoL. 193 (2003) No.3, p.285
P: Journal of Molecular Catalysis A, VoL. 309 (2009) No.7, p.50
Wang: Material Science and Engineering B, VoL. 110 (2004) No.4, p.18.
T: Journal of Molecular Catalysis A: Chemical, VoL. 193 (2003) No.3, p.285
P: Journal of Molecular Catalysis A, VoL. 309 (2009) No.7, p.50
Wang: Material Science and Engineering B, VoL. 110 (2004) No.4, p.18.
Online since: July 2012
Authors: Mohd Amirul Syafiq Mohd Yunos, Siti Aslina Hussain, Jaafar Abdullah, Engku Mohd Fahmi Engku Chik, Noraishah Othman, Shahidan Radiman
Experimental
Materials.
As a neutron target material, core-shell structured gold-silica is a potential approach to obtain an optimum industrial radioactive tracer material by means of nanotechnology.
References [1] Deepika Kandpal, Suchita Kalele, S K Kulkarni, Synthesis and characterization of silica–gold core-shell (SiO2@Au) nanoparticles, Journal of Physics Indian Academy of Sciences 69 (2007) 277–283
Journal of Non-Crystalline Solids 353 (2007) 1212-1215
Journal of Colloid and Interface Science 283 (2004) 392-396
As a neutron target material, core-shell structured gold-silica is a potential approach to obtain an optimum industrial radioactive tracer material by means of nanotechnology.
References [1] Deepika Kandpal, Suchita Kalele, S K Kulkarni, Synthesis and characterization of silica–gold core-shell (SiO2@Au) nanoparticles, Journal of Physics Indian Academy of Sciences 69 (2007) 277–283
Journal of Non-Crystalline Solids 353 (2007) 1212-1215
Journal of Colloid and Interface Science 283 (2004) 392-396
Online since: October 2011
Authors: Navid Mirjordavi, Fateme Fayyazbakhsh, Mehran Solati-Hashjin, M.A. Shokrgozar, S. Bonakdar, Y. Ganji, S.A. Ghavimi, P. Khashayar
Several materials and composites are suggested as a scaffold for BTE.
The co-precipitation (pH=11) method was used to prepare the LDH powder, using calcium nitrate, Magesium nitrate and aluminum nitrate salts as starting materials.
Materials and methods The powder of Ca-LDH was prepared via the precipitation method using calcium nitrate and aluminum nitrate salts as starting materials with the ratio of Ca/Al=2.
Solati-hashjin, “Ca/Al Layered Double Hydroxides Hydrothermally Modified for Biomaterials Applications," European Cells and Materials Journal, Vol. 19.
D., "Intercalation chemistry of layered double hydroxides: recent developments and applications", journal of materials chemistry, V. 12, 3191–3198, (2002)
The co-precipitation (pH=11) method was used to prepare the LDH powder, using calcium nitrate, Magesium nitrate and aluminum nitrate salts as starting materials.
Materials and methods The powder of Ca-LDH was prepared via the precipitation method using calcium nitrate and aluminum nitrate salts as starting materials with the ratio of Ca/Al=2.
Solati-hashjin, “Ca/Al Layered Double Hydroxides Hydrothermally Modified for Biomaterials Applications," European Cells and Materials Journal, Vol. 19.
D., "Intercalation chemistry of layered double hydroxides: recent developments and applications", journal of materials chemistry, V. 12, 3191–3198, (2002)