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Online since: June 2010
Authors: Marek Płaczek, Andrzej Buchacz
This paper deals with the analysis of mechatronic systems including piezoelectric
materials used as sensors or actuators for stabilization and damping of mechanical vibration.
Therefore mechatronic systems including piezoelectric materials which are introduced into mechanical system and used as sensors or actuators for stabilization and damping of mechanical vibration are becoming increasingly popular.
It is indispensable to take into account geometrical and material parameters of all system components.
Acknowledgements This work was supported by Polish Ministry of Science and Higher Education as a part of the research project No.
Przybyłowicz: Torsional Vibration Control by Active Piezoelectric System, Journal of Theoretical and Applied Mechanics, 33(4), (1995), p. 809-823 [4] A.
Therefore mechatronic systems including piezoelectric materials which are introduced into mechanical system and used as sensors or actuators for stabilization and damping of mechanical vibration are becoming increasingly popular.
It is indispensable to take into account geometrical and material parameters of all system components.
Acknowledgements This work was supported by Polish Ministry of Science and Higher Education as a part of the research project No.
Przybyłowicz: Torsional Vibration Control by Active Piezoelectric System, Journal of Theoretical and Applied Mechanics, 33(4), (1995), p. 809-823 [4] A.
Online since: December 2011
Authors: Zhen Dong Zhang, Xiang Hua Liu, Si Jun Li, Jie Dong, Xiao Zhou, Hai Tao Zhou
China
2School of Materials Science and Engineering, Central South University, Changsha, 410083, P.R.
Seshacharyulu: Materials Science and Engineering A.
Venugopal: Journal of Materials Processing Technology Vol.132 (2003), p262 [8] S.V.S.
Nageswara Rao: Journal of Materials Processing Technology Vol.104 (2000) p103 [9] O.
Prasad: Materials Science and Engineering A.
Seshacharyulu: Materials Science and Engineering A.
Venugopal: Journal of Materials Processing Technology Vol.132 (2003), p262 [8] S.V.S.
Nageswara Rao: Journal of Materials Processing Technology Vol.104 (2000) p103 [9] O.
Prasad: Materials Science and Engineering A.
Online since: May 2014
Authors: Carlos Roberto Grandini, Diego Rafael Nespeque Correa, Pedro Akira Bazaglia Kuroda
Gogia: Progress in Materials Science Vol. 54 (2009), p. 397-425
Qazi: Materials Science and Engineering: C Vol. 26 (2006), p. 1269-1277
Hsu: Materials Science and Engineering: C Vol. 32 (2012), p. 517-522
Semiatin: Materials Science and Engineering: A Vol. 243 (1998), p. 46-65
Zhang: Materials Science and Engineering: A Vol. 416 (2006), p. 59-65
Qazi: Materials Science and Engineering: C Vol. 26 (2006), p. 1269-1277
Hsu: Materials Science and Engineering: C Vol. 32 (2012), p. 517-522
Semiatin: Materials Science and Engineering: A Vol. 243 (1998), p. 46-65
Zhang: Materials Science and Engineering: A Vol. 416 (2006), p. 59-65
Online since: May 2014
Authors: Mi Aye Su Khaing, Hong Lu, Sheng Gao, Jian Liu
According to the different types of materials and demands, straightening methods are also varied.
These considerations have been categorized such as: assumptions, materials properties, mesh and loads of the model.
Al-Ansari: International Journal of Applied Science and Technology, Vol. 2, October(2012), p. 820-829 [4] Y.
Kosel: Journal of Material Engineering and Performance, Vol. 20, August (2011), p. 846-854 [6] S.
Yang: Journal of Material Transaction, Vol. 7 (2010), p. 560-565.
These considerations have been categorized such as: assumptions, materials properties, mesh and loads of the model.
Al-Ansari: International Journal of Applied Science and Technology, Vol. 2, October(2012), p. 820-829 [4] Y.
Kosel: Journal of Material Engineering and Performance, Vol. 20, August (2011), p. 846-854 [6] S.
Yang: Journal of Material Transaction, Vol. 7 (2010), p. 560-565.
Online since: January 2013
Authors: Ming Zhong Li, Gui Yang Liu, Si Yong Xiong, Ren Chuan You, Ling Shuang Wang
Lu: Journal of Dong Hua University (Nature Science Edition), Vol. 27(2) (2001), P.12
Kaplan: Journal of Biomedical Materials Research, Vol. 54 (2001), P.139
Li: Materials Science and Engineering, Vol. 29(2009), P. 1527
Koffas: Journal of Biomedical Materials Research, Vol. 67 (2003) , P. 350
Asakura: Journal of Applied Polymer Science, Vol. 40 (1990) 1745-1756
Kaplan: Journal of Biomedical Materials Research, Vol. 54 (2001), P.139
Li: Materials Science and Engineering, Vol. 29(2009), P. 1527
Koffas: Journal of Biomedical Materials Research, Vol. 67 (2003) , P. 350
Asakura: Journal of Applied Polymer Science, Vol. 40 (1990) 1745-1756
Online since: May 2014
Authors: Li Qin Liu
RFID based supply chain management information system
Liqin Liu1
1Henan Vocational and Technical College of Communications , 450005, China
hnjyllq@163.com
Keywords: RFID technology, Management system, information science
Abstract.
As a basic technology of the information science, the basic function of the RFID technology is to quickly, correctly collect the data and the information of the object.
In 2009 there is a precast production management system which has been developed by the author and utilized in precast production management encompasses inspection of incoming materials, production process inspection, molds inspection, specimen strength feedback, and logistic and receiving management.
Summary As the development of the advanced information, computer science and the RFID technology, the RFID based management systems are widely introduced into various fields, which assist the process of the supply chain.
Lo: International Journal of Production Economics, Vol. 112 (2008) No.2, p. 630.
As a basic technology of the information science, the basic function of the RFID technology is to quickly, correctly collect the data and the information of the object.
In 2009 there is a precast production management system which has been developed by the author and utilized in precast production management encompasses inspection of incoming materials, production process inspection, molds inspection, specimen strength feedback, and logistic and receiving management.
Summary As the development of the advanced information, computer science and the RFID technology, the RFID based management systems are widely introduced into various fields, which assist the process of the supply chain.
Lo: International Journal of Production Economics, Vol. 112 (2008) No.2, p. 630.
Online since: August 2018
Authors: Bin Xu, Igor V. Bychkov, Vasiliy D. Buchelnikov, Anton P. Anzulevich, Leonid Butko, Sergey G. Moiseev, Zhi Wei Peng, Zhu Cheng Huang, Svetlana N. Anzulevich
The metallized pellet can then be used as a good raw material for steelmaking in electric arc furnace.
Given that biochar is a relatively new material, a huge amount of publications [1, 2] studying the possibilities of its application in various fields of science and technology can be observed.
In connection with the foregoing, the theoretical calculations of electrodynamic parameters of biochar-bearing materials are of particular interest and modeling the propagation of electromagnetic radiation of a wide frequency range in such composite structures is topical.
References [1] Zhiwei Peng, Jiann-Yang Hwang, and Matthew Andriese, Absorber Impedance Matching in Microwave Heating, Applied Physics Express 5 (2012) 077301, pp. 1-3 [2] Wang H., Tian Z., Jiang L., Luo W., Wei Z., Li S., Cui J., Wei W., Highly efficient adsorption of Cr(VI) from aqueous solution by Fe3+ impregnated biochar, Journal of Dispersion Science and Technology, Volume 38, Issue 6, 3 June 2017, pp. 815-825 [3] Lyu H., Tang J., Huang Y., Gai L., Zeng E.Y., Liber, K., Gong Y., Removal of hexavalent chromium from aqueous solutions by a novel biochar supported nanoscale iron sulfide composite, Chemical Engineering Journal, Volume 322, 15 August 2017, pp. 516-524 [4] Nan N., DeVallance D.B., Development of poly(vinyl alcohol)/wood-derived biochar composites for use in pressure sensor applications, Journal of Materials Science, Volume 52, Issue 13, 1 July 2017, pp. 8247-8257 [5] Lawrinenko M., Jing D., Banik C., Laird D.A., Aluminum and iron biomass pretreatment impacts on biochar
Heating of metallic powders bу microwaves: Experiment and theory, Journal of Applied Physics, College Park, MD: AIP, 2008, 1, 104, pp 1-10.
Given that biochar is a relatively new material, a huge amount of publications [1, 2] studying the possibilities of its application in various fields of science and technology can be observed.
In connection with the foregoing, the theoretical calculations of electrodynamic parameters of biochar-bearing materials are of particular interest and modeling the propagation of electromagnetic radiation of a wide frequency range in such composite structures is topical.
References [1] Zhiwei Peng, Jiann-Yang Hwang, and Matthew Andriese, Absorber Impedance Matching in Microwave Heating, Applied Physics Express 5 (2012) 077301, pp. 1-3 [2] Wang H., Tian Z., Jiang L., Luo W., Wei Z., Li S., Cui J., Wei W., Highly efficient adsorption of Cr(VI) from aqueous solution by Fe3+ impregnated biochar, Journal of Dispersion Science and Technology, Volume 38, Issue 6, 3 June 2017, pp. 815-825 [3] Lyu H., Tang J., Huang Y., Gai L., Zeng E.Y., Liber, K., Gong Y., Removal of hexavalent chromium from aqueous solutions by a novel biochar supported nanoscale iron sulfide composite, Chemical Engineering Journal, Volume 322, 15 August 2017, pp. 516-524 [4] Nan N., DeVallance D.B., Development of poly(vinyl alcohol)/wood-derived biochar composites for use in pressure sensor applications, Journal of Materials Science, Volume 52, Issue 13, 1 July 2017, pp. 8247-8257 [5] Lawrinenko M., Jing D., Banik C., Laird D.A., Aluminum and iron biomass pretreatment impacts on biochar
Heating of metallic powders bу microwaves: Experiment and theory, Journal of Applied Physics, College Park, MD: AIP, 2008, 1, 104, pp 1-10.
Online since: July 2011
Authors: Hong Xin Shi, Ran Feng Qiu, Yi Min Tu, Ke Ke Zhang, Xin Zhang
References
[1] RR Boyer: Materials Science and Engineering A 213 (1996), p.103−114
(inChinese) [3] XJ Yuan, GM Shen, B Qin: Materials Characterization 59-7 (2008), p. 930−936
[4] B Qin, GM Shen, JW Huang, B Zhou: Materials Characterization 56-1 (2006), p. 32−38
Prasad Rao: Journal of Materials Processing Technology 209 (2009), p. 5862–5870
[7] RF Qiu, C Iwamoto, S Satonaka: Journal of Materials Processing Technology 209-8 (2009), p. 4186-4193
(inChinese) [3] XJ Yuan, GM Shen, B Qin: Materials Characterization 59-7 (2008), p. 930−936
[4] B Qin, GM Shen, JW Huang, B Zhou: Materials Characterization 56-1 (2006), p. 32−38
Prasad Rao: Journal of Materials Processing Technology 209 (2009), p. 5862–5870
[7] RF Qiu, C Iwamoto, S Satonaka: Journal of Materials Processing Technology 209-8 (2009), p. 4186-4193
Online since: May 2020
Authors: Pavel A. Nikiforov, A.I. Nikitin, D.S. Pivovarov, D.S. Yatsko, Y.N. Kulchin
Sciences: 05.16.06, Novocherkassk, 2007, 19 p
Ramakrishnan (ed.), Powder metallurgy and high-temperature materials: Per. from English Chelyabinsk: Metallurgy, 1990, 352 p
Radomyselsky et al, Powder metallurgy: Materials, technology, properties, applications: Handbook, Repl. ed.
Fedorchenko, Kiev: Science, Dumka, 1985, 624 p
Letnikov, Spheroidization of metal powders (review), Aviation materials and technologies.
Ramakrishnan (ed.), Powder metallurgy and high-temperature materials: Per. from English Chelyabinsk: Metallurgy, 1990, 352 p
Radomyselsky et al, Powder metallurgy: Materials, technology, properties, applications: Handbook, Repl. ed.
Fedorchenko, Kiev: Science, Dumka, 1985, 624 p
Letnikov, Spheroidization of metal powders (review), Aviation materials and technologies.
Online since: August 2018
Authors: T.S. Arun Samuel, S. Komalavalli
These gadget structures incorporate twofold door (DG) MOSFETs, double material entryway (DMG) MOSFETs, encompassing entryway (SG) MOSFETs, and double material encompassing entryway (DMSG) MOSFETs gadget.
We have three materials in the gate, the 2D potential under Material1 (M1) and Material2 (M2) and Material 3(M3) can be obtained from equation
The channel formed by using different materials with different work function gives rise to barrier modulation which in turn increases the drain current and reduces the OFF current.
Jit, “A Subthreshold Swing Model for Symmetric Double Gate (DG) MOSFETs with Vertical Gaussian Doping”, Journal of Semiconductor Technology and Science, Vol.10, No.2, pp.107-16, Jun. 2010
Kane,Theory of tunneling, Journal of Appl.
We have three materials in the gate, the 2D potential under Material1 (M1) and Material2 (M2) and Material 3(M3) can be obtained from equation
The channel formed by using different materials with different work function gives rise to barrier modulation which in turn increases the drain current and reduces the OFF current.
Jit, “A Subthreshold Swing Model for Symmetric Double Gate (DG) MOSFETs with Vertical Gaussian Doping”, Journal of Semiconductor Technology and Science, Vol.10, No.2, pp.107-16, Jun. 2010
Kane,Theory of tunneling, Journal of Appl.