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Online since: November 2014
ICMSE2014(Fall) is sponsored by International Association of Management Science and
Engineering Technology (IAMSET).
Thanks also go to Advanced Materials Research, for its wonderful editor service to this proceeding.
It plays an influential role and promotes developments in management science and relevant engineering technology in the world.
IAMSET can publish some double-blind refereed academic journals and some Books in engineering technology and application.
CAO Jianguo, University of Science and Technology Beijing, China Prof.
Thanks also go to Advanced Materials Research, for its wonderful editor service to this proceeding.
It plays an influential role and promotes developments in management science and relevant engineering technology in the world.
IAMSET can publish some double-blind refereed academic journals and some Books in engineering technology and application.
CAO Jianguo, University of Science and Technology Beijing, China Prof.
Online since: August 2014
Authors: Hai Qin Feng
References
[1] Liao Bin,Yang Qin,Lu Mao.The Research of Human Factor Failure Probability Prediction Model Based on CREAM.Journal of Safety Science and Technology,8(7),pp.46-50,2012
Journal of Safety Science and Technology,9(8),pp.95-98, 2013
Circuit Design of Dot-Matrix Chinese Characters Display Based on Proteus in MCU.Chinese Journal of Liquid Crystals and Displays,24(2) ,pp.98-101, 2009
Proteus-based Design and Simulation of Chinese Character Dot-matrix in SCM.Journal of Jingdezhen Comprehensive College.,22(12) ,pp.1-3,2007
[5] HUANG Yong-jing,JIANG Xin-bin,LIU Hong1.Design of LED Dot-matrix Dynamic Display System Based on AT89C51.Journal of Chengdu Textile College,30(7) ,pp.4-6,2013
Journal of Safety Science and Technology,9(8),pp.95-98, 2013
Circuit Design of Dot-Matrix Chinese Characters Display Based on Proteus in MCU.Chinese Journal of Liquid Crystals and Displays,24(2) ,pp.98-101, 2009
Proteus-based Design and Simulation of Chinese Character Dot-matrix in SCM.Journal of Jingdezhen Comprehensive College.,22(12) ,pp.1-3,2007
[5] HUANG Yong-jing,JIANG Xin-bin,LIU Hong1.Design of LED Dot-matrix Dynamic Display System Based on AT89C51.Journal of Chengdu Textile College,30(7) ,pp.4-6,2013
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: M. Sujith, N. Sivanantham, A. Dinakaran
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: 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: April 2016
Authors: O.S. Es-Said, Amjad Ali, H. Garmestani, N. Ula, A. Tabei, O. Almahmoud, A. Dominguez, F. Orantes, Y. Li, J. Foyos, K. Almahmoud
From a recent work by Es-Said and his team [2], three Ti-6Al-4V plate materials produced by powder metallurgy technique were evaluated.
Experimental The materials used were hot tolled bar stocks.
The mechanical tensile properties are comparable to wrought annealed materials and better than cast materials.
Materials & Design.
International Journal of Powder Metallurgy.
Experimental The materials used were hot tolled bar stocks.
The mechanical tensile properties are comparable to wrought annealed materials and better than cast materials.
Materials & Design.
International Journal of Powder Metallurgy.
Online since: August 2013
Authors: Ying Ming Su, Yi Ping Tsai
Utilizing indigenous raw materials.
Construction should use local materials to better integrate with nature, just like indigenous animals build their own habitats with indigenous raw materials, so that buildings will conform to nature and become a part of the eco-system.
Utilizing indigenous raw materials.
Most building materials of Eryi Lou consist of local soil, sand, stones, spodosol, and wood.
Since all the materials come from nature, the construction produces no pollution to the environment, making Eryi Lou a part of the harmonious ecosystem.
Construction should use local materials to better integrate with nature, just like indigenous animals build their own habitats with indigenous raw materials, so that buildings will conform to nature and become a part of the eco-system.
Utilizing indigenous raw materials.
Most building materials of Eryi Lou consist of local soil, sand, stones, spodosol, and wood.
Since all the materials come from nature, the construction produces no pollution to the environment, making Eryi Lou a part of the harmonious ecosystem.
Online since: January 2013
Authors: Jian Wu, Gui Fu Dai, Sheng Yao Jiang, Hui Qin Shi, Ming Fu Gao, Yun Pan Liu, Xiao Min Fang, Guang Yue Zhu, Xiao Yu Deng, Yu Fei Zhang, Biao Zhang, Xin Da Shang
Cellulase Production by Submerged Fermentation Using Biological Materials of Corncob Residue with Aspergillus niger FC-1
Shengyao Jiang1, a, Huiqing Shi1, b, Mingfu Gao1, c, Yunpan Liu1, d,
Xiaomin Fang1, e, Guifu Dai2, f, Guangyue Zhu1, g, Xiaoyu Deng1, h,
Yufei Zhang1, i,Biao Zhang1. j, Xinda Shang1. k,Jian Wu1.
Materials and methods Microorganism and material.
The concentration of glucose produced from corncob residue by the crude cellulase was determined by a SBA-50 Biological Sensor Instrument (Shandong Academy of Sciences).
corncob residue for 1h FC-1 was cultured with the optimal medium for 60h at 30°C, 200r.p.m Summary At present, the high cost of cellulase preparation and the low efficiency of saccharification were the key limitations to converse lignocellulosic materials to fermentable sugars.
Bon: Biochemical Engineering Journal.
Materials and methods Microorganism and material.
The concentration of glucose produced from corncob residue by the crude cellulase was determined by a SBA-50 Biological Sensor Instrument (Shandong Academy of Sciences).
corncob residue for 1h FC-1 was cultured with the optimal medium for 60h at 30°C, 200r.p.m Summary At present, the high cost of cellulase preparation and the low efficiency of saccharification were the key limitations to converse lignocellulosic materials to fermentable sugars.
Bon: Biochemical Engineering Journal.
Online since: June 2014
Authors: Qing Yu Liu, Jin Yang Li, Jian Li, Hao Zheng
The biogas digester there are usually comprises three parts, namely, the raw materials, the anaerobic digestion section, and the biogas slurry as fertilizer.
If the temperature is higher than the setting temperature, the water pump will start to work and low-temperature raw materials will flow into the anaerobic digestion section.
The biogas digester has three parts, namely, the raw material pool for the storage of raw materials, the biogas slurry pool for the storage of biogas slurry, and the anaerobic digestion tank for the anaerobic digestion process.
Acknowledgements This research was supported by the "Twelfth five-year "National Science and Technology Support Plan (2012BAC25B07) References [1] Han guangwei: Journal of Agricultural Mechanization Research. 11(2008) 213-215.
(in Chinese) [4] Xiang yangyang: Anhui Agricultural Science Bulletin. 15(2010) 169-171.
If the temperature is higher than the setting temperature, the water pump will start to work and low-temperature raw materials will flow into the anaerobic digestion section.
The biogas digester has three parts, namely, the raw material pool for the storage of raw materials, the biogas slurry pool for the storage of biogas slurry, and the anaerobic digestion tank for the anaerobic digestion process.
Acknowledgements This research was supported by the "Twelfth five-year "National Science and Technology Support Plan (2012BAC25B07) References [1] Han guangwei: Journal of Agricultural Mechanization Research. 11(2008) 213-215.
(in Chinese) [4] Xiang yangyang: Anhui Agricultural Science Bulletin. 15(2010) 169-171.
Online since: October 2009
Authors: Zdeněk Knésl, Stanislav Seitl, Pavel Hutař, Luboš Náhlík
Fatigue crack propagation in thin structures
Pavel Hutař1, a, Stanislav Seitl1, b, Luboš Náhlík 1,c and Zdeněk Knésl1,d
1
Institute of Physics of Materials, Academy of Sciences of the Czech Republic
Zizkova 22, 616 62 Brno, Czech Republic
a
hutar@ipm.cz, bseitl@ipm.cz, cnahlik@ipm.cz, dknesl@ipm.cz
Keywords: Fatigue crack, vertex singularity, thin structures
Abstract.
It is shown that for materials with Poisson's ratio of about 0.3 the free surface effect does not play a decisive role for specimens with a low level of in-plane constraint but can influence fatigue crack propagation rate in the case of geometries with a high level of the constraint.
Knésl: Key Engineering Materials, Vols. 385-387 (2008), p. 317-320 [3] ASTM Standard E647-00, Standard Method for Measurement of Fatigue Crack Growth Rates, (2004) [4] M.
Kuhn: International Journal of Fatigue, Vol. 38 (2006), p. 627-634 [5] G.C.
Klesnil, P.Lukáš, Fatigue of Metallic Materials, Elsevier, Amstredam, (1992)
It is shown that for materials with Poisson's ratio of about 0.3 the free surface effect does not play a decisive role for specimens with a low level of in-plane constraint but can influence fatigue crack propagation rate in the case of geometries with a high level of the constraint.
Knésl: Key Engineering Materials, Vols. 385-387 (2008), p. 317-320 [3] ASTM Standard E647-00, Standard Method for Measurement of Fatigue Crack Growth Rates, (2004) [4] M.
Kuhn: International Journal of Fatigue, Vol. 38 (2006), p. 627-634 [5] G.C.
Klesnil, P.Lukáš, Fatigue of Metallic Materials, Elsevier, Amstredam, (1992)