Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: March 2016
Authors: Hong Zhang, Yi Cong Ye, Sheng He Zhao, Shu Xin Bai, Li An Zhu
Huang, Microstructure and Thermal Emissive Property Study on La-CeO2 Coatings Prepared by EB-PVD, Harbin: Center for Composite Materials and Structure, Harbin Institute of Technology, 2013
Preparation and Properties of High-Temperature Ir/Re Coating, Changsha: Department of Material Science and Engineering, National University of Defense Technology, 2014
Milhoan, Emissivity Results On High Temperature Coatings for Refractory Composite Materials, AIAA
Cao, Solid synthesis behavior and thermophysical properties of La2(Zr0.7Ce0.3)2O7 ceramics, Transactions of Materials and Heat Treatment. 10 (2012) 1-6
Tao, Investigation of the Microstructures and Thermal Barrier Properties of YSZ Thermal Barrier Coatings, Journal of Aeronautical Materials. 2 ( 2007) 29-32.
Preparation and Properties of High-Temperature Ir/Re Coating, Changsha: Department of Material Science and Engineering, National University of Defense Technology, 2014
Milhoan, Emissivity Results On High Temperature Coatings for Refractory Composite Materials, AIAA
Cao, Solid synthesis behavior and thermophysical properties of La2(Zr0.7Ce0.3)2O7 ceramics, Transactions of Materials and Heat Treatment. 10 (2012) 1-6
Tao, Investigation of the Microstructures and Thermal Barrier Properties of YSZ Thermal Barrier Coatings, Journal of Aeronautical Materials. 2 ( 2007) 29-32.
Online since: November 2015
Authors: Damian Janicki
Materials Science and Engineering.
Journal of Materials Science. 30 (1995) 6105-6112
Hernas: Growth of corrosion products on thermally sprayed coatings with FeAl intermetallic phases in aggressive environments, Journal of Materials Processing Technology. (2005) 930-934
Kik, Structure analysis of welded joints of wear resistant plate and constructional steel, Archives of Materials Science and Engineering. 56, 2 (2010) 108-114
Advanced Materials Research. 1036 (2014) 482-489.
Journal of Materials Science. 30 (1995) 6105-6112
Hernas: Growth of corrosion products on thermally sprayed coatings with FeAl intermetallic phases in aggressive environments, Journal of Materials Processing Technology. (2005) 930-934
Kik, Structure analysis of welded joints of wear resistant plate and constructional steel, Archives of Materials Science and Engineering. 56, 2 (2010) 108-114
Advanced Materials Research. 1036 (2014) 482-489.
Online since: January 2011
Authors: Yoshinobu Shimamura, Tomoya Ohguma, Yoshifumi Ojima, Keiichiro Tohgo
Materials and Experimental Procedures
Materials used in this investigation were mild steel (JSC270D: 270MPa class) plate and ultra-high strength steel (JSC980Y: 980MPa class) plate with 1.4mm thickness.
Speer: Welding Journal, Vol.82 (2003), p.207 [4] E.
Nakayama, et al.: Journal of Society of Materials Science, Japan, Vol.53 (2004), p.1136 [5] K.
Tohgo, et al.: Journal of Society of Materials Science, Japan, Vol.55 (2006), p.1095 [6] F.
Sih: ASME Journal of Basic Engineering, Vol.85 (1963), p.519
Speer: Welding Journal, Vol.82 (2003), p.207 [4] E.
Nakayama, et al.: Journal of Society of Materials Science, Japan, Vol.53 (2004), p.1136 [5] K.
Tohgo, et al.: Journal of Society of Materials Science, Japan, Vol.55 (2006), p.1095 [6] F.
Sih: ASME Journal of Basic Engineering, Vol.85 (1963), p.519
Online since: April 2021
Authors: N. Sivanantham, A. Dinakaran, M. Sujith
OLEDs basic structure consists of organic materials positioned between the cathode and therefore the anode, which consists of electrical conductive transparent Indium Tin Oxide (ITO).
The organic materials compose a multi-layered thin film, which incorporates the opening Transporting Layer (HTL), Emission Layer (EML) and therefore the Electron Transporting Layer (ETL).
The transfer material, emission layer material and selection of electrode are the key factors that determine the standard of OLED components.
PremSankar, Rohith Rajeev, “Intelligent Footboard Accident Prevention System in Buses” International Journal of Advanced Research in Biology, Ecology, Science and Technology Vol. 1, Issue 2, May 2015
Kanthababu, “Design and Development of Automatic Footboard Accident Prevention System” International Journal of Innovative Research in Science, Engineering and Technology Vol. 6, Issue, May2017
The organic materials compose a multi-layered thin film, which incorporates the opening Transporting Layer (HTL), Emission Layer (EML) and therefore the Electron Transporting Layer (ETL).
The transfer material, emission layer material and selection of electrode are the key factors that determine the standard of OLED components.
PremSankar, Rohith Rajeev, “Intelligent Footboard Accident Prevention System in Buses” International Journal of Advanced Research in Biology, Ecology, Science and Technology Vol. 1, Issue 2, May 2015
Kanthababu, “Design and Development of Automatic Footboard Accident Prevention System” International Journal of Innovative Research in Science, Engineering and Technology Vol. 6, Issue, May2017
Online since: March 2015
Authors: Xin Li, Ji Lei Li, Shu Zhang
The cost of the RFB system could be lowered if soluble organic active materials are employed to replace the metallic materials.
Many studies have been done and the quinonoid compounds are demonstrated to be the ideal material[3] and some organic redox flow batteries have been fabricated[4,5] using such materials.
To getting larger voltage and capacity, we can increase flow rate from the foregoing studies except optimize the cell structure and materials.
Wang, et al: submitted to Journal of The Electrochemical Society (2014) [7] W.
Mondal, et al: submitted to Energy & Environmental Science (2012)
Many studies have been done and the quinonoid compounds are demonstrated to be the ideal material[3] and some organic redox flow batteries have been fabricated[4,5] using such materials.
To getting larger voltage and capacity, we can increase flow rate from the foregoing studies except optimize the cell structure and materials.
Wang, et al: submitted to Journal of The Electrochemical Society (2014) [7] W.
Mondal, et al: submitted to Energy & Environmental Science (2012)
Online since: September 2011
Preface
This volume is a collection of papers presented at the 2011 International Conference on Smart Materials
and Nanotechnology in Engineering (SMNE2011) on September 17~18, 2011, Wuhan, China.
This proceeding tends to collect the latest advancement and applications of smart materials and nanotechnology in engineering. it covers nanoscience and technology, nanostructured oxides, interfaces, heterostructures and devices, synthesis and architecture of nanomaterials , toxicology of engineered nanomaterials , nems/mems and microtas, nanodevices and nanofabrication , semiconductor nanowires and heterostructures, nanoscale patterning, assembly, and surface modification , nanotechnology with soft matter, memory, nanomagnetics, materials and devices ; energy and the environment , nanonets and nanomaterials for energy harnessing and storage , advanced materials for energy storage systems, photovoltaic materials and devices , membrane materials and technologies for emerging applications; functional materials , interfacial chemistry and engineering and their applications for molecular and organic electronics , organic, flexible, and printed electronics, metamaterials
, advanced structural and functional materials for protection, composites and nanocomposites , 3d tsv process and design challenges , reliability and variability of emerging devices for future technologies and ulsi circuits and systems ; bio/soft materials, advanced biomaterials for delivery of therapeutics, biomaterials and tissue engineering , sustainable biobased polymers ; frontiers in optical bio-imaging and microscopy , nanoscale imaging, fabrication and materials modification using ion beams, nanophotonics and imaging ; crystal growth and crystal technology, fundamentals of crystallization and low dimensional crystalization , fuctional materials crystallization, characterization and devices , organic and bio-related crystallization , industrial crystallization .
This book covers the subject areas of Smart Materials and Nanotechnology in Engineering.
From which 160 papers have been accepted for presentation at the conference and will be published by TTP, in Advanced Materials Research (AMR) Journal (ISSN: 1022-6680), which is online available in full text via the platform www.scientific.net.
This proceeding tends to collect the latest advancement and applications of smart materials and nanotechnology in engineering. it covers nanoscience and technology, nanostructured oxides, interfaces, heterostructures and devices, synthesis and architecture of nanomaterials , toxicology of engineered nanomaterials , nems/mems and microtas, nanodevices and nanofabrication , semiconductor nanowires and heterostructures, nanoscale patterning, assembly, and surface modification , nanotechnology with soft matter, memory, nanomagnetics, materials and devices ; energy and the environment , nanonets and nanomaterials for energy harnessing and storage , advanced materials for energy storage systems, photovoltaic materials and devices , membrane materials and technologies for emerging applications; functional materials , interfacial chemistry and engineering and their applications for molecular and organic electronics , organic, flexible, and printed electronics, metamaterials
, advanced structural and functional materials for protection, composites and nanocomposites , 3d tsv process and design challenges , reliability and variability of emerging devices for future technologies and ulsi circuits and systems ; bio/soft materials, advanced biomaterials for delivery of therapeutics, biomaterials and tissue engineering , sustainable biobased polymers ; frontiers in optical bio-imaging and microscopy , nanoscale imaging, fabrication and materials modification using ion beams, nanophotonics and imaging ; crystal growth and crystal technology, fundamentals of crystallization and low dimensional crystalization , fuctional materials crystallization, characterization and devices , organic and bio-related crystallization , industrial crystallization .
This book covers the subject areas of Smart Materials and Nanotechnology in Engineering.
From which 160 papers have been accepted for presentation at the conference and will be published by TTP, in Advanced Materials Research (AMR) Journal (ISSN: 1022-6680), which is online available in full text via the platform www.scientific.net.
Online since: July 2017
Authors: Tadeusz Zaborowski, S.N. Grigoriev, Igor N. Bobrovskij, N.M. Bobrovskij, P.A. Melnikov
From among the tested tool materials hard alloy T30K4 has achieved the maximum durability.
Bobrovskij, Simulation of thermal fields using different types of wide burnishing, IOP Conf Series: Materials Science and Engineering, 91 (2015) 012034.
Yurovskikh, The analysis of speed increase perspectives of nanostructuring burnishing with heat removal from the tool, IOP Conference Series: Materials Science and Engineering, 124(1) (2016) 012127.
Semenova, Optimization of nanostructuring burnishing technological parameters by Taguchi method, IOP Conference Series: Materials Science and Engineering, 124(1) (2016) 012022.
Bobrovskij Burnishing Tool Face Optical Control Method, Applied Mechanics and Materials, 770 (2015) 248-252.
Bobrovskij, Simulation of thermal fields using different types of wide burnishing, IOP Conf Series: Materials Science and Engineering, 91 (2015) 012034.
Yurovskikh, The analysis of speed increase perspectives of nanostructuring burnishing with heat removal from the tool, IOP Conference Series: Materials Science and Engineering, 124(1) (2016) 012127.
Semenova, Optimization of nanostructuring burnishing technological parameters by Taguchi method, IOP Conference Series: Materials Science and Engineering, 124(1) (2016) 012022.
Bobrovskij Burnishing Tool Face Optical Control Method, Applied Mechanics and Materials, 770 (2015) 248-252.
Online since: April 2020
Authors: Ashraf Shaqadan
Silica (SiO2) is a row material available in abundance in Jordan.
Engineering Journal, Volume 17(1).
Journal of Control Science and Engineering.
International Journal of Advanced Computer Science and Applications, Vol. 7, (6), 381- 389
Journal of Advanced Science and Engineering Research, Vol. 2(4) September 232-251
Engineering Journal, Volume 17(1).
Journal of Control Science and Engineering.
International Journal of Advanced Computer Science and Applications, Vol. 7, (6), 381- 389
Journal of Advanced Science and Engineering Research, Vol. 2(4) September 232-251
Online since: January 2017
Authors: Z.H. Khan, W.A. Khan, M.S. Tshehla, Oluwole Daniel Makinde
Romanian Journal of Physics, 52(1/2), (2007)
59-72
Journal of Heat Transfer, 128, (2006) 240–250
Journal of Engineering Research and Applications, 3(5), (2013) 953-962
Journal of Nanofluids 4(4), (2015) 461-473
Butt, Magnetic field effects for Copper suspended nanofluid venture through a composite stenosed arteries with permeable wall, Journal of Magnetism and Magnetic Materials 381, (2015) 285-291
Journal of Heat Transfer, 128, (2006) 240–250
Journal of Engineering Research and Applications, 3(5), (2013) 953-962
Journal of Nanofluids 4(4), (2015) 461-473
Butt, Magnetic field effects for Copper suspended nanofluid venture through a composite stenosed arteries with permeable wall, Journal of Magnetism and Magnetic Materials 381, (2015) 285-291
Online since: September 2014
Authors: Yong Guo
At present, a variety of super hard nano coating materials, such as SiC, TiC, TiCN, B4C and so on, with perfect performance are applying widely in engineering.
Coating materials is TiN.
Numerical simulation of rolling contact stress field with superhard coating materials [J].
Numerical analysis of rolling Contact stress field with superhard coating materials [D].
Mechanical science and engineering, 1994, 1l: 79~8 [12] Zhu Kequn.
Coating materials is TiN.
Numerical simulation of rolling contact stress field with superhard coating materials [J].
Numerical analysis of rolling Contact stress field with superhard coating materials [D].
Mechanical science and engineering, 1994, 1l: 79~8 [12] Zhu Kequn.