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Online since: February 2012
Authors: Zhi Li Long, Lu Fan Zhang, Jian Guo Zhang
FEM Design and Experiment of a Micro-Gripper Based on Piezoelectric Material
Zhili Long1, a, Lufan Zhang2,b and Jianguo Zhang1,c
1Harbin Institute of Technology Shenzhen Graduate School, Shenzhen, 518055,China
2State Key Lab for Manufacturing Systems Engineering, Xi’an Jiaotong University, Xi’an, 710049, China
alongworking@163.com, bzzzhanglufan@163.com, czjgno1@126.com
Keywords: Micro-Gripper, Piezoelectric Material, Flexible Structure, Wire Bonding.
In Proc. of IEEE International Conference on Electronics(2005)
Microelectronic Engineering.
Journal of Mechanical Design.
Journal of Mechanical Engineering.
In Proc. of IEEE International Conference on Electronics(2005)
Microelectronic Engineering.
Journal of Mechanical Design.
Journal of Mechanical Engineering.
Online since: September 2017
Authors: D.A. Vinnik, K.M. Zeyde, S.A. Gudkova
Introduction
Barium hexaferrite attracts the interest of the scientists in the last decades due to the possibility of using it for different electronic application, especially in engineering [1-6].
Hou, Effect of heat treatment on the structure of M-Type BaFe12O 19 hollow ceramic microspheres prepared by self-reactive quenching technology and microwave absorption properties, Journal of Materials Science. 48(16) (2013) 5664-5672
Baykal, Effect of temperature on magnetic properties of BaYxFe12 −xO19 hexaferrites, Ceramics International, 42(14) (2016) 16296-16302
Zha, Yu Tian, Determining the complex permittivity of powder materials from 1-40GHz using transmission-line technique, IEEE International Geoscience and Remote Sensing Symposium. (2013) 1380-1382
Afsar, Complex permittivity and permeability of hexaferrite and carbonyl iron powders using rectangular waveguide technique from 8-40GHz, IEEE International Magnetics Conference (INTERMAG), 2005
Hou, Effect of heat treatment on the structure of M-Type BaFe12O 19 hollow ceramic microspheres prepared by self-reactive quenching technology and microwave absorption properties, Journal of Materials Science. 48(16) (2013) 5664-5672
Baykal, Effect of temperature on magnetic properties of BaYxFe12 −xO19 hexaferrites, Ceramics International, 42(14) (2016) 16296-16302
Zha, Yu Tian, Determining the complex permittivity of powder materials from 1-40GHz using transmission-line technique, IEEE International Geoscience and Remote Sensing Symposium. (2013) 1380-1382
Afsar, Complex permittivity and permeability of hexaferrite and carbonyl iron powders using rectangular waveguide technique from 8-40GHz, IEEE International Magnetics Conference (INTERMAG), 2005
Online since: October 2014
Authors: Khameel Bayo Mustapha
This is due to the paramount technological applications of this structural element in vast areas of engineering practice.
Thermal residual stresses in plates and coatings composed of multi-layered and functionally graded materials, Composites Part B: Engineering, vol. 29, pp. 199-210, // 1998
Wave propagation characteristics of a twisted micro scale beam, International Journal of Engineering Science, vol. 53, pp. 46-57, 2012
Couple stress based strain gradient theory for elasticity, International Journal of Solids and Structures, vol. 39, pp. 2731-2743, 5// 2002
Gao, "A new bernoulli-euler beam model based on a modified couple stress theory," Earth and Space 2006 - Proceedings of the 10th Biennial International Conference on Engineering, Construction, and Operations in Challenging Environments 2006, p. 166.
Thermal residual stresses in plates and coatings composed of multi-layered and functionally graded materials, Composites Part B: Engineering, vol. 29, pp. 199-210, // 1998
Wave propagation characteristics of a twisted micro scale beam, International Journal of Engineering Science, vol. 53, pp. 46-57, 2012
Couple stress based strain gradient theory for elasticity, International Journal of Solids and Structures, vol. 39, pp. 2731-2743, 5// 2002
Gao, "A new bernoulli-euler beam model based on a modified couple stress theory," Earth and Space 2006 - Proceedings of the 10th Biennial International Conference on Engineering, Construction, and Operations in Challenging Environments 2006, p. 166.
Online since: October 2020
Authors: Hun Guo, Cheng Huang, Xiao Jun Wang, Zhen Yu Yuan
The Electric Properties of the Medium Inside the Crack Effects on the Electric-Field-Induced Domain Evolution in Ferroelectric
Cheng Huang1,a*, Zhenyu Yuan1,b, Xiaojun Wang1,c, Hun Guo1,d*
1School of Aviation and Mechanical Engineering, Changzhou Institute of Technology, Changzhou, Jiangsu, 213032, China
a*huangcheng@czu.cn, byuanzy@czu.cn, cwangxj@czu.cn, dguoh@czu.cn
Keywords: Ferroelectrics; Phase field model; electric inclusion; domain switching
Abstract.
Chen, Modeling of hysteresis loop and its applications in ferroelectric materials, Ceramics International, 44: 4338-4343 (2018)
Barnett, et al., Fracture mechanics for piezoelectric ceramics, Journal of the Mechanics and Physics of Solids, 40(4): 739-765 (1992)
Chen, Three-dimensional computer simulation of ferroelectric domain formation, Journal of the American Ceramic Society, 81(3): 492-500 (1998)
Gao, Giant electrocaloric effect in a cracked ferroelectrics, Journal of Applied Physics 123, 154102 (2018).
Chen, Modeling of hysteresis loop and its applications in ferroelectric materials, Ceramics International, 44: 4338-4343 (2018)
Barnett, et al., Fracture mechanics for piezoelectric ceramics, Journal of the Mechanics and Physics of Solids, 40(4): 739-765 (1992)
Chen, Three-dimensional computer simulation of ferroelectric domain formation, Journal of the American Ceramic Society, 81(3): 492-500 (1998)
Gao, Giant electrocaloric effect in a cracked ferroelectrics, Journal of Applied Physics 123, 154102 (2018).
Online since: May 2014
Authors: Yi Qin, Gang Yang, Yi Yang, Xian Zhi Yang, De Qiang Yin
Neck Formation and Self-Adjusting Mechanism of Neck Growth of Conducting Powders in Spark Plasma Sintering, Journal of the American Ceramic Society. 89( 2006) 594-500
Zavaliangos, Sintering activation by external electrical field, Materials Science and Engineering A.287 (2000) 171-177
%Al2O3 composites, Ceramics International. 38 (2012) 1371-1380
Journal of Engineering Materials and Technology. 127 (2005) 251-256
Wang, The forming and densification of sintered powder materials, International Journal of Science Sintering. 19 (1987) 65-80.
Zavaliangos, Sintering activation by external electrical field, Materials Science and Engineering A.287 (2000) 171-177
%Al2O3 composites, Ceramics International. 38 (2012) 1371-1380
Journal of Engineering Materials and Technology. 127 (2005) 251-256
Wang, The forming and densification of sintered powder materials, International Journal of Science Sintering. 19 (1987) 65-80.
Online since: May 2016
Authors: Jun Zhao, Qing Zhong Xu, Hong Shan Zhang, Feng Gong, Xian Hua Tian, Xing Ai
Wang: Materials Science and Engineering A Vol. 618 (2014), p. 462-470
[2] S.
Daud: Chemical Engineering Journal Vol. 255 (2014), p. 445-452 [4] Q.Z.
Chen: Ceramics International Vol. 39 (2013), p. 503-509 [7] Y.
Bellosi: Journal of the European Ceramic Society Vol. 22 (2002), p. 2587-2593 [9] J.M.
Zhu: Materials Science and Engineering A Vol. 445-446 (2007), p. 707-716 [11] Z.M.
Daud: Chemical Engineering Journal Vol. 255 (2014), p. 445-452 [4] Q.Z.
Chen: Ceramics International Vol. 39 (2013), p. 503-509 [7] Y.
Bellosi: Journal of the European Ceramic Society Vol. 22 (2002), p. 2587-2593 [9] J.M.
Zhu: Materials Science and Engineering A Vol. 445-446 (2007), p. 707-716 [11] Z.M.
Online since: November 2011
Authors: Chang Jian Lu, An Gu, Li Meng, Sheng Yi Yang
Journal of Electromachining. 6 (1998):23-25
Journal of Electromachining. 5 (1994):2-7
Journal of Electromachining. 5 (1997):15-19
Precision Engineering. 33 (2009) 459-465
International Journal of Machine Tools & Manufacture. 46 (2006 )313-332
Journal of Electromachining. 5 (1994):2-7
Journal of Electromachining. 5 (1997):15-19
Precision Engineering. 33 (2009) 459-465
International Journal of Machine Tools & Manufacture. 46 (2006 )313-332
Online since: January 2005
Authors: Chang Chun Ge, Li-Ying Zhao, Wen Feng Zhang, Qing Zhi Yan, Xin Tai Su
Introduction
Barium titanate is a well-known ferroelectric and piezoelectric ceramic.
SAS has been utilized for the synthesis of high-Tc superconductors, solid oxide fuel cells, and ferroelectric BaTiO3 ceramics [5-7].
Maeek: Journal of Powder Sources.
Zhang: Microelectronic Engineering Vol. 66 (2003), p.147 [7] X.L.
Paskocimas: Ceramics International Vol. 21 (1995), p. 153 Fig.2.
SAS has been utilized for the synthesis of high-Tc superconductors, solid oxide fuel cells, and ferroelectric BaTiO3 ceramics [5-7].
Maeek: Journal of Powder Sources.
Zhang: Microelectronic Engineering Vol. 66 (2003), p.147 [7] X.L.
Paskocimas: Ceramics International Vol. 21 (1995), p. 153 Fig.2.
Online since: May 2004
Authors: H. Yurdakul, A. İssi, N. Ediz
İssi
Dumlupınar University, Department of Ceramic Engineering, Kütahya/Turkey
Keywords: Tincal Waste, Wall Tile, Recycling.
Özdağ: Leeds University, Mining Association Journal (2001), p. 93 [4] Ş.
Zeybek: 1 st International Boron Symposium (2002), p. 259 [5] T.
Reed: Principles of Ceramics Processing, Chapter XI (New York 1995), p. 172-175 [8] R.
Strnad: Glass-Ceramic Materials (Elsevier Science Publication Co., 1986) [10] TS EN 159: Dust-Pressed Ceramic Tiles with Water Absorption E %10 (Group BIII) (1997)
Özdağ: Leeds University, Mining Association Journal (2001), p. 93 [4] Ş.
Zeybek: 1 st International Boron Symposium (2002), p. 259 [5] T.
Reed: Principles of Ceramics Processing, Chapter XI (New York 1995), p. 172-175 [8] R.
Strnad: Glass-Ceramic Materials (Elsevier Science Publication Co., 1986) [10] TS EN 159: Dust-Pressed Ceramic Tiles with Water Absorption E %10 (Group BIII) (1997)
Online since: November 2024
Authors: Riris Eka Mafuroh, Anida Salma, Selvina Ariyanti, Nurul Lathifah, Rivina Oktafiani, Anisa Nandita Rahmawati, Frisca Aulia Alvyanti, Devara Ega Fausta, Ahmad Marzuki, Hery Purwanto
Nuclear Engineering and Technology, 55(9), 3441–3449 (2023)
Ceramics International, 45(17), 23572–23577 (2019)
Ceramics International, 46(5), 6136–6140 (2020)
Ceramics International, 46(16), 25633-25637
Composites Part B: Engineering, 165, 636-647
Ceramics International, 45(17), 23572–23577 (2019)
Ceramics International, 46(5), 6136–6140 (2020)
Ceramics International, 46(16), 25633-25637
Composites Part B: Engineering, 165, 636-647