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Online since: April 2014
Preface
The 3rd International Conference on Materials and Applications for Sensors and
Transducers, Prague, Czech Republic, hosted about 320 oral and poster papers and more
than 200 participants.
Emphasizing in hybrid sensors and smart specialization devices produced by inexpensive methods, without excluding of course micro-nano technology, from all kinds of solid state, liquid and gaseous materials, as well as in particular transducer applications (design and development, as well as use of sensing data) III.
Publishing the conference proceedings in the form of 4-page papers in a compact volume of Key Engineering Materials which has a certain large impact in CPSI, while long versions of complete research articles are subject of publication in Sensor Letters and the Journal of Optoelectronics and Advanced Materials, both ISI Journals IV.
The Conference Chairmen Evangelos Hristoforou National TU of Athens Dimitrios Vlachos University of Peloponnese Scientific Committee Spyridon Diplas, Sintef Oslo, Norway Mihai Popescu, Editor-in-Chief, Journal of Optoelectronics and Advanced Materials Peter Svec, Slovak Academy of Sciences Horia Chiriac, National Institute for R&D in Technical Physics, Iasi, Romania Roberto Germano, Promete, Naples, Italy Ioannis Raptis, NCSR "Demokritos", Athens, Greece Raffaele Battaglia, Novaetech Srl Christophe Dolabdjian, University of CAEN, France Pavel Ripka, Czech Technical University, Czech Republic Saci Messaadi, Université de Batna, Algeria Nico Avdelidis, TWI, UK Faramarz Hossein-Babaei, K.N.
Vladimir Sivakov, Institute of Photonic Technology, Jena, Germany Velonia, K., Department of Materials Science and Technology, University of Crete Dediu, Valentin Alek, ISMN-CNR, Italy Anthopoulos, T., Imperial College London Morent, Rino, Applied Physics - Ghent University Papakonstantinou, P., University of Ulster, School of Engineering, Engineering Research Institute Athouël, Laurence, Dr., IMN-CNRS, University of Nantes, France Gascon, J., Catalysis Engineering / Delft University of Technology C.N.R.
Emphasizing in hybrid sensors and smart specialization devices produced by inexpensive methods, without excluding of course micro-nano technology, from all kinds of solid state, liquid and gaseous materials, as well as in particular transducer applications (design and development, as well as use of sensing data) III.
Publishing the conference proceedings in the form of 4-page papers in a compact volume of Key Engineering Materials which has a certain large impact in CPSI, while long versions of complete research articles are subject of publication in Sensor Letters and the Journal of Optoelectronics and Advanced Materials, both ISI Journals IV.
The Conference Chairmen Evangelos Hristoforou National TU of Athens Dimitrios Vlachos University of Peloponnese Scientific Committee Spyridon Diplas, Sintef Oslo, Norway Mihai Popescu, Editor-in-Chief, Journal of Optoelectronics and Advanced Materials Peter Svec, Slovak Academy of Sciences Horia Chiriac, National Institute for R&D in Technical Physics, Iasi, Romania Roberto Germano, Promete, Naples, Italy Ioannis Raptis, NCSR "Demokritos", Athens, Greece Raffaele Battaglia, Novaetech Srl Christophe Dolabdjian, University of CAEN, France Pavel Ripka, Czech Technical University, Czech Republic Saci Messaadi, Université de Batna, Algeria Nico Avdelidis, TWI, UK Faramarz Hossein-Babaei, K.N.
Vladimir Sivakov, Institute of Photonic Technology, Jena, Germany Velonia, K., Department of Materials Science and Technology, University of Crete Dediu, Valentin Alek, ISMN-CNR, Italy Anthopoulos, T., Imperial College London Morent, Rino, Applied Physics - Ghent University Papakonstantinou, P., University of Ulster, School of Engineering, Engineering Research Institute Athouël, Laurence, Dr., IMN-CNRS, University of Nantes, France Gascon, J., Catalysis Engineering / Delft University of Technology C.N.R.
Online since: August 2017
Authors: Hayrettin Ahlatci, Yunus Turen, Huseyin Zengin, Yavuz Sun, Nazif Ugur Aydın
Materials and Method
AM60 magnesium alloys with a nominal composition of 6 wt% Al and 0.3 wt% Mn were produced by conventional gravity casting.
Materials Science and Engineering: A 302, (2001) 37–45 [3] G.L., Song, A., Atrens, Corrosion Mechanisms of Magnesium Alloys.
Rare Metal Materials and Engineering 44, (2015) 521–526 [6] J., Zhang, M., Xu, X., Teng, M., Zuo, n.d.
Applied Surface Science 369, 2016, 92–100 [10] F.
The Open Materials Science Journal 6, (2012) 6–13 [13] H.Y., Choi, W.J., Kim, Development of the highly corrosion resistant AZ31 magnesium alloy by the addition of a trace amount of Ti.
Materials Science and Engineering: A 302, (2001) 37–45 [3] G.L., Song, A., Atrens, Corrosion Mechanisms of Magnesium Alloys.
Rare Metal Materials and Engineering 44, (2015) 521–526 [6] J., Zhang, M., Xu, X., Teng, M., Zuo, n.d.
Applied Surface Science 369, 2016, 92–100 [10] F.
The Open Materials Science Journal 6, (2012) 6–13 [13] H.Y., Choi, W.J., Kim, Development of the highly corrosion resistant AZ31 magnesium alloy by the addition of a trace amount of Ti.
Online since: April 2022
Authors: Oluwabunmi Pamilerin Abioye, Ojo Sunday Isaac Fayomi, Abiodun Ayodeji Abioye
To mitigate any disastrous effect from materials to be used for protection against biofouling, the International Maritime Organization (IMO) has banned the use of toxic substances as anti-biofouling materials [21].
The study will study the properties, effectiveness or strength, and the limitation of such materials.
Reches, Bio-inspired antifouling approaches: the quest towards non-toxic and non-biocidal materials.
International Journal of Molecular Sciences, 14,5 (2013) 9556-9580
Advanced materials, 23,6 (2011) 690-718.
The study will study the properties, effectiveness or strength, and the limitation of such materials.
Reches, Bio-inspired antifouling approaches: the quest towards non-toxic and non-biocidal materials.
International Journal of Molecular Sciences, 14,5 (2013) 9556-9580
Advanced materials, 23,6 (2011) 690-718.
Online since: May 2011
Authors: Ji Dong Li, Fa Yu Wu, Hui Jin, Zhi Ying Wang, Yi Yong Wang
Study of Back Electromotive Force in the Preparation of Al-Ca Alloy by Molten Salt Electrolysis Method
Yiyong Wanga, Hui Jinb,Fayu Wuc, Jidong Li and Zhiying Wang
School of Materials and Metallurgy, University of Science and Technology Liaoning, Anshan,Liaoning , 114051,China
awangyiyongfly@gmail.com, b hui313@163.com, c fayuwu@gmail.com
Keywords: back electromotive force, molten salt electrolysis, current density, feeding period
Abstract.
References [1] Jidong Li, Mingjie Zhang, Tingan Zhang: The Chinese Journal of Nonferrous Metals, Vol. 18 (2008), p.1555.
(in Chinese) [2] Shaohua Yang, Yungang Ban, Yuhua Guo: Journal of Northeastern University (Natural Science), Vol. 8(207), p. 839.
[4] Yong Yang, Yongcheng Chai, Guochun Teng: Journal of Materials and Metallurgy, Vol. 9(2010), p.97
[5] James P Hoare, Charles R W: Corrosion Science, Vol. 15 (1975), p. 435
References [1] Jidong Li, Mingjie Zhang, Tingan Zhang: The Chinese Journal of Nonferrous Metals, Vol. 18 (2008), p.1555.
(in Chinese) [2] Shaohua Yang, Yungang Ban, Yuhua Guo: Journal of Northeastern University (Natural Science), Vol. 8(207), p. 839.
[4] Yong Yang, Yongcheng Chai, Guochun Teng: Journal of Materials and Metallurgy, Vol. 9(2010), p.97
[5] James P Hoare, Charles R W: Corrosion Science, Vol. 15 (1975), p. 435
Online since: January 2010
Authors: Roland E. Logé, Nathalie Bozzolo, Nadia Souaï, Loic Nazé, Yvan Chastel, Vincent Maurel
Res Mechanica: International Journal of Structural Mechanics and Material
Science, 11:47-84, 1984
Material Science & Engineering A, A237:168-172, 1996
Journal of Nuclear Materials, 348:263-271, 2006
The Role of the Coincidence Site Lattice in Grain Boundary Engineering, Institute of Materials 1996
Journal of Material Science, 40:853-859, 2005
Material Science & Engineering A, A237:168-172, 1996
Journal of Nuclear Materials, 348:263-271, 2006
The Role of the Coincidence Site Lattice in Grain Boundary Engineering, Institute of Materials 1996
Journal of Material Science, 40:853-859, 2005
Online since: October 2016
Authors: M.P. Jenarthanan, B. Desikan
(M.Saktivel, 2014 & 2015) inferred that the mechanical properties of Polymer composite materials are being extensively used in industries.
The survey was conducted on drilling of GFRP composite materials.
Experimental Procedure Materials.
Ramasegar, “Minimizing Push-out Delamination in Glass Fiber Reinforced Polyester Using RSM”, International Journal of Applied Science and Technology, 2012, Vol. 2 No. 3
Machining and Machinability of Materials, Vol. 15, Nos. 3/4, pp.136–146
The survey was conducted on drilling of GFRP composite materials.
Experimental Procedure Materials.
Ramasegar, “Minimizing Push-out Delamination in Glass Fiber Reinforced Polyester Using RSM”, International Journal of Applied Science and Technology, 2012, Vol. 2 No. 3
Machining and Machinability of Materials, Vol. 15, Nos. 3/4, pp.136–146
Online since: November 2010
Authors: Shu Cai Li, L. Yang, B. Li, Y. Jiang
Research on the Propagation Pattern of 3-D Initial Crack in Rock-like
Material under Uniaxial Tension
L.
Experiments and numerical simulations were conducted to investigate the propagation patterns of pre-existing 3-D elliptical crack in rock-like material under uniaxial tension.
This fact is due to the heterogeneous of mortar material.
Chau, and Wei-Shen Zhu: submitted to International Journal of Rock Mechanics & Mining Sciences (2004)
Zhang: submitted to Chinese Journal of Geotechnical Engineering (2005).
Experiments and numerical simulations were conducted to investigate the propagation patterns of pre-existing 3-D elliptical crack in rock-like material under uniaxial tension.
This fact is due to the heterogeneous of mortar material.
Chau, and Wei-Shen Zhu: submitted to International Journal of Rock Mechanics & Mining Sciences (2004)
Zhang: submitted to Chinese Journal of Geotechnical Engineering (2005).
Online since: March 2020
Authors: Xiao Hong Yuan, Gaurav Prasad, Yun Juan liu, Yan Wang
According to GB/T 9995-1997 "Determination of moisture content and moisture regain of textile materials," oven drying was used for testing.
According to GB/T 9995-1997 "Determination of moisture content and moisture regain of textile materials," oven drying was used for testing.
Zhang, The effect of steam explosion treatment on the separation of lotus fiber, In Advanced Materials Research, 750(2013) 2307-2312
Effects of anisotropic pore structure and fiber texture on fatigue properties of lotus-type porous magnesium, Journal of Materials Research,22 (2007) 3120-3129
Zou, Green textile materials and techniques for water resource protection.
According to GB/T 9995-1997 "Determination of moisture content and moisture regain of textile materials," oven drying was used for testing.
Zhang, The effect of steam explosion treatment on the separation of lotus fiber, In Advanced Materials Research, 750(2013) 2307-2312
Effects of anisotropic pore structure and fiber texture on fatigue properties of lotus-type porous magnesium, Journal of Materials Research,22 (2007) 3120-3129
Zou, Green textile materials and techniques for water resource protection.
Online since: September 2011
Authors: Shu Lin Wang, Di Liu, Yan Chen Du, Yin Zhang Sun, Hai Chao Li
Experimental Study of Particle Collision Damper for Vibration Attenuation
Di Liu1,a, Shu Lin Wang2,b, Yan Chen Du3,c, Hai Chao Li1,d, Yin Zhang Sun1,e
1School of Energy & Power Engineering, University of Shanghai for Science and Technology, Shanghai 200093, China;
2School of Material Science & Engineering, University of Shanghai for Science and Technology, Shanghai 200093, China;
3School of Medical Instrument & Food Engineering, University of Shanghai for Science and Technology, Shanghai 200093, China
adiliu.nmg@163.com,busst516@163.com,cduyanchen@hotmail.com,dcomet88888@126.com, echarliemailcn@163.com
Keywords: Particle collision damping, Vibration control, Impacter, Particle damping agent, Vibration attenuation
Abstract.
The vibration reduction mechanism of the experiment is as follows: in the damper cavity the steel balls strongly impacted the particle materials, strongly squeezed the particle materials made them produced plastic deformation, in the vibration process permanently consumed the energy of the system[9].
At the same time, between the particle materials and the particle materials and the damper and the steel balls existed the friction that made the system energy dissipated irreversible.
In this paper, particle collision damping is object of the experimental research, by adding variational diameter impacters(steel balls) and particle materials in the damper, studied the vibration reduction of the damper, compared the system reduction effect of different diameter impacters and different kinds of particle materials in combination ways.
Sankar: Journal of Sound and Vibration, Vol:103(1985), No. 4, p.457 [3] W.
The vibration reduction mechanism of the experiment is as follows: in the damper cavity the steel balls strongly impacted the particle materials, strongly squeezed the particle materials made them produced plastic deformation, in the vibration process permanently consumed the energy of the system[9].
At the same time, between the particle materials and the particle materials and the damper and the steel balls existed the friction that made the system energy dissipated irreversible.
In this paper, particle collision damping is object of the experimental research, by adding variational diameter impacters(steel balls) and particle materials in the damper, studied the vibration reduction of the damper, compared the system reduction effect of different diameter impacters and different kinds of particle materials in combination ways.
Sankar: Journal of Sound and Vibration, Vol:103(1985), No. 4, p.457 [3] W.
Online since: April 2021
Authors: Annisa Aprilia, Ayi Bahtiar, Lusi Safriani, Sri Suryaningsih, Choiry Ghina Afrilia, Rizkia Mutiara
Experiments
Materials.
Matia, Enhancing the photo-corrosion resistance of ZnO nanowire photocatalyst, Journal of Hazardous Materials 378 120799 (2019)
Impellizzeri, ZnO for application in photocatalysis: from thin films to nanostructures, Materials Science in Semiconductor Processing 69 (2017) 44-51
Safriani, Study of low temperature preparation of Al doped ZnO powder and its photocatalytic properties, Key Engineering Materials Vol. 860 (2020) 329-337
Series: Materials Science and Engineering 292 (2017).
Matia, Enhancing the photo-corrosion resistance of ZnO nanowire photocatalyst, Journal of Hazardous Materials 378 120799 (2019)
Impellizzeri, ZnO for application in photocatalysis: from thin films to nanostructures, Materials Science in Semiconductor Processing 69 (2017) 44-51
Safriani, Study of low temperature preparation of Al doped ZnO powder and its photocatalytic properties, Key Engineering Materials Vol. 860 (2020) 329-337
Series: Materials Science and Engineering 292 (2017).