Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: August 2018
Authors: Ivano Benedetti, Alberto Milazzo, Vincenzo Gulizzi
International Journal of Solids and Structures, 100, 169-186, 2016
[9] Aliabadi MH.
International Journal of Solids and Structures, 38(40):7065-7078, 2001 [12] Sfantos GK, Aliabadi MH.
International Journal of Numerical Methods in Engineering, 69(8), 1590-1626, 2007 [13] Geraci G, Aliabadi MH.
Engineering Fracture Mechanics, 176, 351-374, 2017 [14] Benedetti I, Aliabadi MH.
International Journal of Plasticity, 83, 202-224, 2016 [16] Benedetti I, Aliabadi MH.
International Journal of Solids and Structures, 38(40):7065-7078, 2001 [12] Sfantos GK, Aliabadi MH.
International Journal of Numerical Methods in Engineering, 69(8), 1590-1626, 2007 [13] Geraci G, Aliabadi MH.
Engineering Fracture Mechanics, 176, 351-374, 2017 [14] Benedetti I, Aliabadi MH.
International Journal of Plasticity, 83, 202-224, 2016 [16] Benedetti I, Aliabadi MH.
Online since: February 2014
Authors: Tai Hong Cheng, Yan Wei Ming, Ke Huang, Bi Li
PZT Based Ultrasonic Wave Force Detecting Sensor
Yan-Wei Ming1, a, Tai-Hong Cheng2,b, Ke Huang3,c, Bi Li4,d
College of Mechanical and Electrical Engineering, Wenzhou University,
The People's Republic of China
bemail: cth0315@163.com (Corresponding Author)
Keywords: Piezoelectric ceramic; Optical fiber; Ultrasonic sensors;
Abstract.
The working principle of the sensor system is the signal generator output signal transmitted to a piezoelectric ceramic.
The proposed system consists of signal generator, a piezoelectric ceramic, fiber optics, oscilloscope.
The calculation results of the piezoelectric ceramic theory of resonant frequency of 110.6 KHz.
[3] N Takeda: Characterization of Microscopic Damage in Composite Laminates and Real-Time Monitoring by Embedded Optical Fiber Sensors(2002),International Journal of Fatigue, vol.24, p.281-289 [4] J.Lin: Recent Development and Applications of Optical and Fiber-Optic Ph Sensors, Trends in Analytical Chemistry, vol .19, p. 9(2000) [5] R.J.
The working principle of the sensor system is the signal generator output signal transmitted to a piezoelectric ceramic.
The proposed system consists of signal generator, a piezoelectric ceramic, fiber optics, oscilloscope.
The calculation results of the piezoelectric ceramic theory of resonant frequency of 110.6 KHz.
[3] N Takeda: Characterization of Microscopic Damage in Composite Laminates and Real-Time Monitoring by Embedded Optical Fiber Sensors(2002),International Journal of Fatigue, vol.24, p.281-289 [4] J.Lin: Recent Development and Applications of Optical and Fiber-Optic Ph Sensors, Trends in Analytical Chemistry, vol .19, p. 9(2000) [5] R.J.
Online since: August 2017
Authors: S. Nallusamy, J. Logeshwaran
Nallusamy, Experimental analysis on sliding wear behaviour of aluminium-6063 with SiC particulate composites, International Journal of Engineering Research in Africa, 31, (2017), 36-43
Nallusamy, Analysis of MRR and TWR on OHNS die steel with different electrodes using electrical discharge machining, International Journal of Engineering Research in Africa, 22, (2016), 112-120
Nallusamy, Analysis of welding properties in FSW aluminium 6351 alloy plates added with silicon carbide particles, International Journal of Engineering Research in Africa, 21, (2015), 110-117
Manikanda Prabu, Investigation on carbon nanotubes over review on other heat transfer nano fluids, International Journal of Applied Engineering Research, 10(62), (2015), 112- 117
Saravanan, Modeling and analysis of crank shaft with metal matrix composites, International Journal of Applied Engineering Research, 10(62), (2015), 133- 137
Nallusamy, Analysis of MRR and TWR on OHNS die steel with different electrodes using electrical discharge machining, International Journal of Engineering Research in Africa, 22, (2016), 112-120
Nallusamy, Analysis of welding properties in FSW aluminium 6351 alloy plates added with silicon carbide particles, International Journal of Engineering Research in Africa, 21, (2015), 110-117
Manikanda Prabu, Investigation on carbon nanotubes over review on other heat transfer nano fluids, International Journal of Applied Engineering Research, 10(62), (2015), 112- 117
Saravanan, Modeling and analysis of crank shaft with metal matrix composites, International Journal of Applied Engineering Research, 10(62), (2015), 133- 137
Online since: December 2013
Authors: Abdul Azeez Aliyu, Musa Hamidon, Jafri M. Rohani
Bahari "A review on current research trends in electrical discharge machining (EDM)," International Journal of Machine Tools & Manufacture 47 (2007) 1214–1228
[4] B.H.
Huddleston, "Material removal by spalling during EDM of ceramics," Journal of the European Ceramic Society, 20 (2000) 1629±1635
Singh, "MRR Improvement in Sinking Electrical Discharge Machining: " Journal of Minerals & Materials Characterization & Engineering, 9 (2010) 709-739
Malhotra, "Modeling and analysis of machining parameters for surface roughness in powder mixed EDM using RSM approach," International Journal of Engineering, Science and Technology, 4 (2012) 45-52
A Khan, "Modeling and Analysis of MRR, EWR and Surface Roughness in EDM Milling through Response Surface Methodology," American J. of Engineering and Applied Sciences, 3(4) (2010) 611-619.
Huddleston, "Material removal by spalling during EDM of ceramics," Journal of the European Ceramic Society, 20 (2000) 1629±1635
Singh, "MRR Improvement in Sinking Electrical Discharge Machining: " Journal of Minerals & Materials Characterization & Engineering, 9 (2010) 709-739
Malhotra, "Modeling and analysis of machining parameters for surface roughness in powder mixed EDM using RSM approach," International Journal of Engineering, Science and Technology, 4 (2012) 45-52
A Khan, "Modeling and Analysis of MRR, EWR and Surface Roughness in EDM Milling through Response Surface Methodology," American J. of Engineering and Applied Sciences, 3(4) (2010) 611-619.
Online since: July 2014
Authors: Igor Schmidt, Sergio Cava, Vânia Caldas Sousa, Tiago Delbrücke
Electrical Properties of a TiO2-SrO Varistor System
Tiago Delbrücke1,a∗, Igor Schmidt1,b, Sergio Cava2,c
and Vania Caldas Sousa1,d
1Laboratory of Biomaterials & Advanced Ceramics, Engineering Materials Department, Federal
University of Rio Grande do Sul, Rio Grande do Sul, Brazil.
Yanagida: Journal of the American Ceramic Society Vol. 70 (1987), p.
Wu: Journal of the American Ceramic Society Vol 78 (1995), p. 2203-2208
Bradt: Ceramics International Vol 25 (1999), p. 253-256
Zhuang: Materials Science and Engineering Vol 85 (2001), p. 6-10
Yanagida: Journal of the American Ceramic Society Vol. 70 (1987), p.
Wu: Journal of the American Ceramic Society Vol 78 (1995), p. 2203-2208
Bradt: Ceramics International Vol 25 (1999), p. 253-256
Zhuang: Materials Science and Engineering Vol 85 (2001), p. 6-10
Online since: August 2016
Authors: Meenaloshini Satgunam, Mohsen Golieskardi, Dinesh Ragurajan
Khristevich, Ceramics International, 36 (2010) 345–350
Kailer, Journal of the European Ceramic Society, 34 (2014) 4311– 4319
Mechanical and Aeronautical Engineering, 1 (2014), 48-52
Teng, Ceramic International, 34 (2008) 1603-1608 [21] Somiya S.
Journal of the European Ceramics Society, 34 (2014) 45-53
Kailer, Journal of the European Ceramic Society, 34 (2014) 4311– 4319
Mechanical and Aeronautical Engineering, 1 (2014), 48-52
Teng, Ceramic International, 34 (2008) 1603-1608 [21] Somiya S.
Journal of the European Ceramics Society, 34 (2014) 45-53
Online since: November 2015
Authors: Pavol Božek, Yuri Nikitin, Pavel Lekomtsev, Alexander Romanov, Andrey Abramov, Ivan Abramov
In analysis of taper interference fit joints designers use the engineering calculation techniques well-proven at traditional materials and fits [3, 4].
To develop theory and engineering calculation techniques, experimental studies of load-carrying capacity of taper joints made of the above materials are required.
In Assembling in mechanical engineering and instrument-making.
Vojtko, Selected types of neural networks for magnetoelastic sensor error suppression Journal of Electrical Engineering, vol. 58, no. 4 (2007), ISSN 1335-3632 [12] K.
Gargušová, Pressure and tractive stress in gas filled cavity in insulationduring partial discharge activity In: Journal of Electrical Engineering, No. 11-12. (1997).
To develop theory and engineering calculation techniques, experimental studies of load-carrying capacity of taper joints made of the above materials are required.
In Assembling in mechanical engineering and instrument-making.
Vojtko, Selected types of neural networks for magnetoelastic sensor error suppression Journal of Electrical Engineering, vol. 58, no. 4 (2007), ISSN 1335-3632 [12] K.
Gargušová, Pressure and tractive stress in gas filled cavity in insulationduring partial discharge activity In: Journal of Electrical Engineering, No. 11-12. (1997).
Online since: February 2020
Authors: Denis Veselov, Nikolay Samotaev, Nikolay Volkov, Nazar Zibilyuk, Konstantin Oblov, Boris Podlepetsky, Maya Etrekova
Technology of SMD MOX Gas Sensors Rapid Prototyping
Nikolay Samotaeva*, Konstantin Oblovb, Denis Veselovc, Boris Podlepetskyd, Maya Etrekovae, Nikolay Volkovf and Nazar Zibilyukg
National Research Nuclear University MEPhI (Moscow Engineering Physics Institute), Russian Federation, 115409 Moscow, Kashirskoe highway 31
annsamotaev@mephi.ru, bkyoblov@mephi.ru, cdsveselov@mephi.ru, dbipodlepetskij@mephi.ru, emoetrekova@mephi.ru, fnvvolkov@mephi.ru, gnazarzibilyuk@gmail.com
Keywords: gas sensor, ceramics, microheater, laser technology, surface-mounted device
Abstract.
Available online: http://www.figarosensor.com/products/entry/tgs8100.html (accessed on 30 April 2019) [6] Ohnishi H, Ultra Low Power Thin Film MEMS Gas Sensor for Battery operated Gas Alarm, 2018 Proceedings of 17th International Meeting on Chemical Sensors - IMCS 2018 95-96 [7] Kyocera ceramic hybrid packages.
Available online: https://www.sgxsensortech.com/content/uploads/2014/07/DS-0165-MP-7217-Datasheet-V5.pdf (accessed on 30 April 2019) [22] Vasiliev A V, Pisliakov A V, Sokolov A V, Samotaev N N, Soloviev S A, Oblov K, Guarnieri V, Lorenzelli L, Brunelli J, Maglione A, Lipilin A S, Mozalev A and Legin A V, Non-silicon MEMS platforms for gas sensors, 2016 Sensors and Actuators, B: Chemical 224 700-713 [23] Vasiliev A A, Lipilin A S, Mozalev A M, Lagutin A S, Pisliakov A V, Zaretskiy N P, Samotaev N N, Sokolov A V, Gas sensors based on MEMS structures made of ceramic ZrO2/Y 2O3 material, 2011 Proceedings of SPIE - The International Society for Optical Engineering, 8066, article 80660N [24] Vasiliev A A, Pavelko R G, Gogish-Klushin S Yu, Kharitonov D Yu, Gogish-Klushina O S, Sokolov A V, Samotaev N N, Alumina MEMS platform for impulse semiconductor and IR optic gas sensors, 2007, Proceedings of TRANSDUCERS and EUROSENSORS '07 - 4th International Conference on Solid-State Sensors, Actuators
and Microsystems, article 4300563 2035-2037 [25] Vasiliev A A, Sokolov A V, Legin A V, Samotaev N N, Oblov K Yu, Kim V P, Tkachev, S V, Gubin S P, Potapov G N, Kokhtina Yu V, Nisan A V, Additive technologies for ceramic MEMS sensors, 2015, Procedia Engineering, 120 1087-1090
[26] Samotaev N N, Miniaturized ceramic platform for metal oxide gas sensors array, 2016, IOP Conference Series: Materials Science and Engineering, 151 (1), article 012020 [27] Biro F, Ducso C, Hajnal Z, Pap A E, Barsony I, Optimisation of low dissipation micro-hotplates - Thermo-mechanical design and characterisation, 2013, Proceedings of THERMINIC 2013 - 19th International Workshop on Thermal Investigations of ICs and Systems, 116-121 [28] Samotaev N N, Vasiliev A A, Podlepetsky B I, Sokolov A V and Pisliakov A V, The mechanism of the formation of selective response of semiconductor gas sensor in mixture of CH4/H2/CO with air, 2007 Sensors and Actuators, B: Chemical 127 (1) 242-247
Available online: http://www.figarosensor.com/products/entry/tgs8100.html (accessed on 30 April 2019) [6] Ohnishi H, Ultra Low Power Thin Film MEMS Gas Sensor for Battery operated Gas Alarm, 2018 Proceedings of 17th International Meeting on Chemical Sensors - IMCS 2018 95-96 [7] Kyocera ceramic hybrid packages.
Available online: https://www.sgxsensortech.com/content/uploads/2014/07/DS-0165-MP-7217-Datasheet-V5.pdf (accessed on 30 April 2019) [22] Vasiliev A V, Pisliakov A V, Sokolov A V, Samotaev N N, Soloviev S A, Oblov K, Guarnieri V, Lorenzelli L, Brunelli J, Maglione A, Lipilin A S, Mozalev A and Legin A V, Non-silicon MEMS platforms for gas sensors, 2016 Sensors and Actuators, B: Chemical 224 700-713 [23] Vasiliev A A, Lipilin A S, Mozalev A M, Lagutin A S, Pisliakov A V, Zaretskiy N P, Samotaev N N, Sokolov A V, Gas sensors based on MEMS structures made of ceramic ZrO2/Y 2O3 material, 2011 Proceedings of SPIE - The International Society for Optical Engineering, 8066, article 80660N [24] Vasiliev A A, Pavelko R G, Gogish-Klushin S Yu, Kharitonov D Yu, Gogish-Klushina O S, Sokolov A V, Samotaev N N, Alumina MEMS platform for impulse semiconductor and IR optic gas sensors, 2007, Proceedings of TRANSDUCERS and EUROSENSORS '07 - 4th International Conference on Solid-State Sensors, Actuators
and Microsystems, article 4300563 2035-2037 [25] Vasiliev A A, Sokolov A V, Legin A V, Samotaev N N, Oblov K Yu, Kim V P, Tkachev, S V, Gubin S P, Potapov G N, Kokhtina Yu V, Nisan A V, Additive technologies for ceramic MEMS sensors, 2015, Procedia Engineering, 120 1087-1090
[26] Samotaev N N, Miniaturized ceramic platform for metal oxide gas sensors array, 2016, IOP Conference Series: Materials Science and Engineering, 151 (1), article 012020 [27] Biro F, Ducso C, Hajnal Z, Pap A E, Barsony I, Optimisation of low dissipation micro-hotplates - Thermo-mechanical design and characterisation, 2013, Proceedings of THERMINIC 2013 - 19th International Workshop on Thermal Investigations of ICs and Systems, 116-121 [28] Samotaev N N, Vasiliev A A, Podlepetsky B I, Sokolov A V and Pisliakov A V, The mechanism of the formation of selective response of semiconductor gas sensor in mixture of CH4/H2/CO with air, 2007 Sensors and Actuators, B: Chemical 127 (1) 242-247
Online since: March 2021
Authors: Anna Zawada, Malgorzata Ulewicz
Selected Properties of Clay-Ash Composite Containing Bottom Ash from Combustion of Wood - Coconut Shells Biomass
Malgorzata ULEWICZ1a, Anna ZAWADA2
1Faculty of Civil Engineering, Czestochowa University of Technology, Dabrowskiego 69, 42-201; Czestochowa, Poland
2Faculty of Production Engineering and Materials Technology, Czestochowa University of Technology, Dabrowskiego 69, Czestochowa, Poland
amalgorzata.ulewicz@pcz.pl
Keywords: bottom ash, biomass, ceramic materials, compression strength
Abstract.
Series: Materials Science and Engineering 127, 012-024
[12] Andreola F, Barbieri L Lancellotti I, Leonelli C and Manfredini T 2016, Recycling of industrial wastes in ceramic manufacturing: State of art and glass case studies, Ceramics International 42, 13333-13338
[15] Angjusheva B, Fidancevska E and Jovanov V 2012, Production of ceramics from coal fly ash, Chemical Industry & Chemical Engineering Quarterly 18, 245-254
[17] Zhu J-bin and Yan H. 2017, Microstructure and properties of mullite-based porous ceramics produced from coal fly ash with added Al2O3, International Journal of Minerals, Metallurgy, and Materials 24, 309-315
Series: Materials Science and Engineering 127, 012-024
[12] Andreola F, Barbieri L Lancellotti I, Leonelli C and Manfredini T 2016, Recycling of industrial wastes in ceramic manufacturing: State of art and glass case studies, Ceramics International 42, 13333-13338
[15] Angjusheva B, Fidancevska E and Jovanov V 2012, Production of ceramics from coal fly ash, Chemical Industry & Chemical Engineering Quarterly 18, 245-254
[17] Zhu J-bin and Yan H. 2017, Microstructure and properties of mullite-based porous ceramics produced from coal fly ash with added Al2O3, International Journal of Minerals, Metallurgy, and Materials 24, 309-315
Online since: September 2019
Authors: Razali Mohd Hasmizam, Azaman Fazureen, Mohd Al Amin Muhamad Nor, Ali Asmadi, Che Zulkifli Rumaizah
Wang, Preparation and properties of porous ceramic aggregates using electrical insulators waste, Ceramics International, 41 (2015) 5807-5811
Fukushima, Macro-porous ceramics: processing and properties, International Materials Reviews, 57 (2012) 115-131
Hotta, Gas permeability and mechanical properties of porous alumina ceramics with unidirectionally aligned pores, Journal of the European Ceramic Society, 27 (2007) 53-59
Marchese, Composite ceramic membranes from natural aluminosilicates for microfiltration applications, Ceramics International, 41 (2015) 5621-5633
Cretin, Microfiltration ceramic membranes from local Cameroonian clay applicable to water treatment, Ceramics International, 41 (2015) 2752-2759
Fukushima, Macro-porous ceramics: processing and properties, International Materials Reviews, 57 (2012) 115-131
Hotta, Gas permeability and mechanical properties of porous alumina ceramics with unidirectionally aligned pores, Journal of the European Ceramic Society, 27 (2007) 53-59
Marchese, Composite ceramic membranes from natural aluminosilicates for microfiltration applications, Ceramics International, 41 (2015) 5621-5633
Cretin, Microfiltration ceramic membranes from local Cameroonian clay applicable to water treatment, Ceramics International, 41 (2015) 2752-2759