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Online since: June 2015
Authors: André Luiz Fiquene de Brito, Aline Cadígena Lima Patrício, Adna de Alcântara e Souza Bandeira, Ana Cristina Silva Muniz, Joelma Dias
López-Delgado: Journal of Environmental Management Vol. 101 (2012), p. 197
Hills: Journal of Environmental and Sanitary Engineering Vol. 3 (1) (1998), p. 55
LIM: Journal of Hazardous Materials Vol. 150 (2008), p. 413
Holandan: Ceramics International Vol. 39 (2013), p. 57
Pandey: Journal of Hazardous Materials (2012), p. 56.
Hills: Journal of Environmental and Sanitary Engineering Vol. 3 (1) (1998), p. 55
LIM: Journal of Hazardous Materials Vol. 150 (2008), p. 413
Holandan: Ceramics International Vol. 39 (2013), p. 57
Pandey: Journal of Hazardous Materials (2012), p. 56.
Online since: July 2015
Authors: Bernhard Wielage, Thomas Seider, Daniel Wett, Daisy Nestler, Guntram Wagner, Thomas Gessner, Jörg Martin
The sample was attached to a ceramic flat heater (Bach Resistor Ceramics).
(reactive) magnetron sputtering of ZnO:Al films from metallic and ceramic targets: a comparative study, Surface and Coatings Technology 93 (1997) 21 [8] C.
Krasnobaev, Features of DC magnetron sputtering of mosaic copper-graphite targets, 13th International Conference on Plasma Surface Engineering, September 10-14, 2012, Garmisch-Partenkirchen, Germany, Proceedings, 227 [10] B.
Journal of Applied Physics 97 (2005) 044313 [12] M.
Bhushan, Optical and mechanical properties of DC sputtered carbon films, Journal of Materials Research, 5 (1990) 2538 [13] S.
(reactive) magnetron sputtering of ZnO:Al films from metallic and ceramic targets: a comparative study, Surface and Coatings Technology 93 (1997) 21 [8] C.
Krasnobaev, Features of DC magnetron sputtering of mosaic copper-graphite targets, 13th International Conference on Plasma Surface Engineering, September 10-14, 2012, Garmisch-Partenkirchen, Germany, Proceedings, 227 [10] B.
Journal of Applied Physics 97 (2005) 044313 [12] M.
Bhushan, Optical and mechanical properties of DC sputtered carbon films, Journal of Materials Research, 5 (1990) 2538 [13] S.
Online since: February 2014
Authors: Xiu Hua Chen, Wen Hui Ma, Jie Yu, Rui Li, Jie Xing, Jian Jun Yang
Anode-supported LSGM Films Prepared by Slurry Spin Coating
Jie Xing1,b, Xiuhua Chen1,a, Wenhui Ma2,c, Rui Li1,d, Jianjun Yang2,e, Jie Yu2,f
1 Faculty of Physical Science and Technology, Yunnan University, Kunming, China;
2 National Engineering Laboratory of Vacuum Metallurgy, Kunming University of Science and Technology, Kunming, China
achenxh@ynu.edu.cn,bxjsofc@163.com,cmwhsilicon@163.com, dsofclr@163.com,eyjjsofc@qq.com,fkmyujie@gmail.com
Keywords: LSGM; slurry spin coating; electrolyte film; SOFC
Abstract.
[3] D Xu , X M Liu, C J Zhu , D J Wang, D T Yan, D Y Wang,W H Su, Study on rare earth electrolyte of SDC-LSGM, Journal of Rare Earth, 26 (2008) 241-244
Electrical properties of iron doped apatite-type lanthanum silicates, Journal of Rare Earths, 30 (2012) 1235-1239
[5] M F Han, Z Liu,S Zhou, S P Peng, Solid oxide fuel cell: materials, technology and application, Engineer Science, 8 (2010) 32-35
[7] X Y Xu, C R Xia, S G Huang, D K Peng, YSZ thin films deposited by spin-coating for IT-SOFCs, Ceramics International,31 (2005) 1061-1064
[3] D Xu , X M Liu, C J Zhu , D J Wang, D T Yan, D Y Wang,W H Su, Study on rare earth electrolyte of SDC-LSGM, Journal of Rare Earth, 26 (2008) 241-244
Electrical properties of iron doped apatite-type lanthanum silicates, Journal of Rare Earths, 30 (2012) 1235-1239
[5] M F Han, Z Liu,S Zhou, S P Peng, Solid oxide fuel cell: materials, technology and application, Engineer Science, 8 (2010) 32-35
[7] X Y Xu, C R Xia, S G Huang, D K Peng, YSZ thin films deposited by spin-coating for IT-SOFCs, Ceramics International,31 (2005) 1061-1064
Online since: January 2012
Authors: Cemail Aksel
Fiori: Industrial Ceramics Vol. 8 (1988), p. 121
[3] G.R.
Warren: Composites Science and Technology Vol. 63 (2003), p. 1433 [9] BS 7134: Methods for Determination of Density and Porosity (British Standard Testing of Engineering Ceramics, Part 1, Section 1.2, 1989)
Griffith: Proceedings of the First International Congress for Applied Mechanics (1924), p. 55 [14] M.I.
Park, Eds.: CRC Materials Science and Engineering Handbook (CRC Press, Boca Raton, Florida 1994)
Ress: Journal of Alloys and Compounds Vol. 371 (2004), p. 77
Warren: Composites Science and Technology Vol. 63 (2003), p. 1433 [9] BS 7134: Methods for Determination of Density and Porosity (British Standard Testing of Engineering Ceramics, Part 1, Section 1.2, 1989)
Griffith: Proceedings of the First International Congress for Applied Mechanics (1924), p. 55 [14] M.I.
Park, Eds.: CRC Materials Science and Engineering Handbook (CRC Press, Boca Raton, Florida 1994)
Ress: Journal of Alloys and Compounds Vol. 371 (2004), p. 77
Online since: September 2012
Authors: Gregory J. Ehlert, Henry A. Sodano, Hai Xiong Tang, Natalie R. Meeks
Poly(vinylidene fluoride) Interleaves for Multifunctional Fiber Reinforced Composites
Gregory J Ehlert1, a, Haixiong Tang2,b, Natalie R Meeks2,c
and Henry A Sodano1,2,d
1Mechanical and Aerospace Engineering, PO Box 116250, University of Florida, Gainesville, Florida, 32611-6250, USA
2Materials Science and Engineering, PO Box 116400, University of Florida, Gainesville, Florida, 32611-6400, USA
agjehlert@ufl.edu, bhtang15@ufl.edu, cnatmeeks21@ufl.edu, dhsodano@ufl.edu
Keywords: Interleave, composite, energy storage, multifunction
Abstract: The integration of energy storage into structural multifunctional materials has found use in a wide variety of applications, such as future air and ground vehicles.
Polymers, in contrast with ceramics, can provide greater energy storage through the inherently higher breakdown strength, even though ceramics offer higher dielectric permittivity.
Ceramics, such as BaTiO3 or SrTiO3, are generally brittle and weak, while structural ceramics such as Al2O3 or SiC have low dielectric or are conductive [6, 7].
Niles, Dielectric, ferroelectric, and piezoelectric properties of lead zirconate titanate thick films on silicon substrates, Journal of Applied Physics. 77 (1995) 3349-3353
Rethwisch, Materials science and engineering: an Introduction, John Wiley & Sons, 2009
Polymers, in contrast with ceramics, can provide greater energy storage through the inherently higher breakdown strength, even though ceramics offer higher dielectric permittivity.
Ceramics, such as BaTiO3 or SrTiO3, are generally brittle and weak, while structural ceramics such as Al2O3 or SiC have low dielectric or are conductive [6, 7].
Niles, Dielectric, ferroelectric, and piezoelectric properties of lead zirconate titanate thick films on silicon substrates, Journal of Applied Physics. 77 (1995) 3349-3353
Rethwisch, Materials science and engineering: an Introduction, John Wiley & Sons, 2009
Online since: January 2012
Authors: Jin Sheng Liang, Qing Guo Tang, Fei Wang, Cong Chen, Ya Lei Chen
.: Journal of Natural Gas Chemistry, Vol. 16(2007), p. 235
[8] G.
Girgin: Minerals Engineering, Vol. 15(2002), p. 683 [14] H.
Girgin: Turkish Journal of Chemistry, Vol. 26(2002), p. 431 [16] A.K.
Baykara: Ceramics International, Vol. 23(1997), p. 305 [20] I.
Akyuz: Journal of Molecular Structure, Vol. 744-747(2005), p. 47
Girgin: Minerals Engineering, Vol. 15(2002), p. 683 [14] H.
Girgin: Turkish Journal of Chemistry, Vol. 26(2002), p. 431 [16] A.K.
Baykara: Ceramics International, Vol. 23(1997), p. 305 [20] I.
Akyuz: Journal of Molecular Structure, Vol. 744-747(2005), p. 47
Online since: September 2016
Authors: Ramesh Gupta Burela, T.S. Shakthivel
Shakthivel1, Ramesh Gupta Burela∗,2
Mechanical Engineering Department, Shiv Nadar University, Greater Noida, 201314, India
1 tsshakthivel@gmail.com 2 rameshgupta.iisc@gmail.com
*Corresponding author
Keywords: Composites, Energy harvesting, Finite Element Method, Harmonic analysis, Modal analysis
ABSTRACT.
[5] A.Kumar et al., 2014, “Finite element analysis of vibration energy harvesting using lead-free piezoelectric materials: A comparative study”, Journal of Asian Ceramic Societies, 2, pp.138–143
[6] Ramesh Gupta.B, 2002, “Finite element analysis of flexible structures with piezoelectric patch actuators and sensors”, Master’s thesis, Department of Civil Engineering, Malnad College of Engineering
Reaves, Lucas G.Horta, 2001, “Test cases for modeling and validation of structures with piezoelectric actuators”, AIAA Journal, 1466 [8]Y.Amini et al., 2015, “Finite element modeling of functionally graded piezoelectric harvesters”, Composite Structures, 129, pp.165-176
[9] Henno Allik, Thomas J.R.Hughes, 1970, “Finite element method for piezoelectric vibration”, International journal for numerical methods in engineering, 2, pp.151-157
[5] A.Kumar et al., 2014, “Finite element analysis of vibration energy harvesting using lead-free piezoelectric materials: A comparative study”, Journal of Asian Ceramic Societies, 2, pp.138–143
[6] Ramesh Gupta.B, 2002, “Finite element analysis of flexible structures with piezoelectric patch actuators and sensors”, Master’s thesis, Department of Civil Engineering, Malnad College of Engineering
Reaves, Lucas G.Horta, 2001, “Test cases for modeling and validation of structures with piezoelectric actuators”, AIAA Journal, 1466 [8]Y.Amini et al., 2015, “Finite element modeling of functionally graded piezoelectric harvesters”, Composite Structures, 129, pp.165-176
[9] Henno Allik, Thomas J.R.Hughes, 1970, “Finite element method for piezoelectric vibration”, International journal for numerical methods in engineering, 2, pp.151-157
Online since: May 2020
Authors: Xi Hao Liu, Bin Han, Jia Yi Lin, Hui Wang
Wang: J Optics & Lasers in Engineering Vol. 110(2018), p. 163-171
Optics and Lasers in Engineering, 2017, 93:195-210
Hu: J Journal of Iron and Steel Research International Vol. 1(2011), p. 73-78
Luo: J Journal of Alloys & Compounds Vol. 742(2018), p. 383-390
Hu: J Materials for mechanical engineering Vol. 40(2016), p. 79-83
Optics and Lasers in Engineering, 2017, 93:195-210
Hu: J Journal of Iron and Steel Research International Vol. 1(2011), p. 73-78
Luo: J Journal of Alloys & Compounds Vol. 742(2018), p. 383-390
Hu: J Materials for mechanical engineering Vol. 40(2016), p. 79-83
Online since: January 2013
Authors: Bimrew Tamrat Admasu, Xiao Bing Luo, Jia Wei Yao, Ting Zhen Ming
Rowe: Thermoelectrics, an environmentally-friendly source of electrical power Renewable Energy, vol. 16, 1999, pp. 1251-1256
[5] Fankai Meng, Lingen Chen, Fengrui Sun: Performance characteristics of a multi-element thermoelectric generator withradiative heat transfer law, International Journal of Sustainable Energy Vol. 31, No. 2, April 2012, 119–131
[6] Y.
Mishra: A Review of Recent Patents on Micro-Combustion and Applications, Recent Patents on Engineering, vol. 3, 2009, pp. 194-209
Bass: A stove-top generator for cold areas, in: Proceedings of 15th International Conference on Thermoelectrics, Pasadena, USA, 1996, pp.390–393
Proc. 10th.International Thermoelectric Conference.
Rowe, Gao Min: Evaluation of thermoelectric modules for power generation, Journal of Power Sources 73 (1998) 193–198
Mishra: A Review of Recent Patents on Micro-Combustion and Applications, Recent Patents on Engineering, vol. 3, 2009, pp. 194-209
Bass: A stove-top generator for cold areas, in: Proceedings of 15th International Conference on Thermoelectrics, Pasadena, USA, 1996, pp.390–393
Proc. 10th.International Thermoelectric Conference.
Rowe, Gao Min: Evaluation of thermoelectric modules for power generation, Journal of Power Sources 73 (1998) 193–198
Online since: September 2011
Authors: Zhi Qian Yang, Jia Ping Liu, Jian Zhong Liu, Chang Feng Li, Hua Xin Zhou
Journal of Building Materials, Vol.4 (2001), p.79-83
International Journal of Fatigue, Vol.29 (2007), p.1292-1301
Journal of Materials Science, Vol.44 (2009), p.1600-1606
Ceramics International, Vol.35 (2009), p.2235-2240
Journal of Engineering Mechanics, (1999), p.290-299
International Journal of Fatigue, Vol.29 (2007), p.1292-1301
Journal of Materials Science, Vol.44 (2009), p.1600-1606
Ceramics International, Vol.35 (2009), p.2235-2240
Journal of Engineering Mechanics, (1999), p.290-299