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Online since: April 2014
Authors: Jie He, Dao Heng Sun, Ling Yun Wang, Ling Ke Yu, Xiao Hui Du, Zhan Zhan, Shu Fen Chen, Cheng Zheng
Vertically Aligned Carbon Nanotubes Transfer with Glass Frit
Jie He1,a, Zhan Zhan1,b, Xiaohui Du1,c, Shufen Chen2,d, Lingke Yu1,e, Cheng Zheng1,f, Lingyun Wang1,g* and Daoheng Sun1,h
1Dept. of Mechanical and Electrical Engineering, Xiamen Univ., Xiamen, China, 361005
2College of Chemistry and Chemical Engineering, Xiamen Univ., Xiamen, China, 361005
ahejie_579546@126.com, bzhanzhan_snow@163.com, cfengpiaotaxiang@163.com, dcsfbee36@163.com, eyulingke@gmail.com, fchzhxmu@gmail.com, gwangly@xmu.edu.cn, hsundh@xmu.edu.cn
Keywords: carbon nanotubes; glass frit; transfer
Abstract.
The Fig.6 (g) is a schematic diagram of device-level packaging, in which the nanogetter based on Ti films is transferred onto the kovar alloy and then they are used as lid being packaged along with the ceramic base by solder.
Acknowledgment The authors would like to thank Mingsong Lin, college of chemistry and chemical engineering, for the help about CNTs growth.
References [1] Songping Chen, Daoheng Sun, Liwei Lin, Nanogetters for MEMS hermetic packaging, Proceedings of the 7th IEEE International Conference on Nanotechnology. (2007) 921-924
Seraphin, Growing carbon nanotubes vertically and horizontally to the substrate: a review, Rangsit Journal of Arts and Sciences. 2 (2012) 161-174
The Fig.6 (g) is a schematic diagram of device-level packaging, in which the nanogetter based on Ti films is transferred onto the kovar alloy and then they are used as lid being packaged along with the ceramic base by solder.
Acknowledgment The authors would like to thank Mingsong Lin, college of chemistry and chemical engineering, for the help about CNTs growth.
References [1] Songping Chen, Daoheng Sun, Liwei Lin, Nanogetters for MEMS hermetic packaging, Proceedings of the 7th IEEE International Conference on Nanotechnology. (2007) 921-924
Seraphin, Growing carbon nanotubes vertically and horizontally to the substrate: a review, Rangsit Journal of Arts and Sciences. 2 (2012) 161-174
Online since: August 2021
Authors: Konstantin L. Timofeev, Roman S. Voinkov, Natalia E. Agarova, Lyubov M. Yakovleva
Kumar, Preparation of high-purity ultrafine copper powder in mass-production by chemical reduction method: Taguchi robust design optimization, Materials Science, Powder Metallurgy and Metal Ceramics. 55 (2016) 386-396
Chigirinets, Optimization of the factors of the electrolysis process to obtain an ultrafine copper electrolytic powder, Proceedings of VII International Symposium “Surface Engineering.
Nauryzbaiev, The Effect of organic surface-active additives upon the kinetics of electrodeposition of ultrafine copper powder, Chemical Engineering Transactions. 47 (2016) 211-216
-K Mohsin, Production of copper powder from ores by electrodeposition process, Journal of University of Babylon for Engineering Sciences. 27 (2019) 233-241
Chigirinets, Optimization of the factors of the electrolysis process to obtain an ultrafine copper electrolytic powder, Proceedings of VII International Symposium “Surface Engineering.
Nauryzbaiev, The Effect of organic surface-active additives upon the kinetics of electrodeposition of ultrafine copper powder, Chemical Engineering Transactions. 47 (2016) 211-216
-K Mohsin, Production of copper powder from ores by electrodeposition process, Journal of University of Babylon for Engineering Sciences. 27 (2019) 233-241
Online since: December 2003
Authors: Larry L. Hench, Julian R. Jones, Lisa M. Ehrenfried
Sintering the bioactive glass foam at 800°C was the optimum treatment for the
production of a macroporous scaffold for tissue engineering.
Results For tissue engineering applications, the modal interconnected pore diameter (Dmode) must be greater than 100µm, to allow tissue ingrowth and eventually vascularisation.
Therefore heating the scaffold above 800°C reduced Dmode below the 100µm required for tissue engineering applications.
To obtain a bioactive glass scaffold of optimum strength and with a pore structure suitable for tissue engineering, the foams should be sintered at 800°C.
International Centre for Diffraction Data, USA. 2000
Results For tissue engineering applications, the modal interconnected pore diameter (Dmode) must be greater than 100µm, to allow tissue ingrowth and eventually vascularisation.
Therefore heating the scaffold above 800°C reduced Dmode below the 100µm required for tissue engineering applications.
To obtain a bioactive glass scaffold of optimum strength and with a pore structure suitable for tissue engineering, the foams should be sintered at 800°C.
International Centre for Diffraction Data, USA. 2000
Online since: August 2021
Authors: Jithin Vishnu, Geetha Manivasagam
Journal of Biomimetics, Biomaterials and Tissue Engineering. 2010;6:45-55
Journal of Biomimetics, Biomaterials and Tissue Engineering. 2010; 5:39-56
Journal of Bionic Engineering. 2017;14:317-26
Journal of the American Ceramic Society. 2006; 89: 2660-3
Chemical Engineering Journal. 2012; 191:38-44
Journal of Biomimetics, Biomaterials and Tissue Engineering. 2010; 5:39-56
Journal of Bionic Engineering. 2017;14:317-26
Journal of the American Ceramic Society. 2006; 89: 2660-3
Chemical Engineering Journal. 2012; 191:38-44
Online since: November 2010
Authors: Ping Zhao, Bing Hai Lv, Ju Long Yuan, Ke Feng Tang, Wei Yu
China
3Department of Information Science and Electronic Engineering, Quzhou College, Quzhou, Zhejiang Province 324000, P.R.
China 4National Engineering Research Center for High Efficiency Grinding, Hunan University, Changsha, Zhejiang Province 410082, P.R.
Introduction Precision ball, accounting for a great significance in precision engineering, is the key and basic component which is used in precision bearing, ball-screw, precise equipment used for measurement.
Kung: International Journal of Mechanical Sciences, Vol. 45 (2003), pp. 57-72
Lv: Key Engineering Materials, Vol. 304 (2006), pp. 300-304
China 4National Engineering Research Center for High Efficiency Grinding, Hunan University, Changsha, Zhejiang Province 410082, P.R.
Introduction Precision ball, accounting for a great significance in precision engineering, is the key and basic component which is used in precision bearing, ball-screw, precise equipment used for measurement.
Kung: International Journal of Mechanical Sciences, Vol. 45 (2003), pp. 57-72
Lv: Key Engineering Materials, Vol. 304 (2006), pp. 300-304
Online since: March 2010
Authors: Zhan Hui Yan, Yi Cao, Jun Yi Yu
In order to enhance the
performance of the precise machine tools, the ceramics, crystal glass and composite materials are
used to table or column in recent years [5].
Yuan: Tool Engineering, Vol. 40 (2006), p. 3-9 [3] N.
Ni: China Mechanical Engineering, Vol. 8 (1997), p. 29-33 [6] W.Q.
Tabatabaie: Proceedings of the Institution of Mechanical Engineers (Part B Engineering Manufacture), Vol. 222 (2008), p. 309-318 [11] Y.
Gelvis: International Journal of Advanced Manufacturing Technology, Vol. 35 (2007), p. 745-750
Yuan: Tool Engineering, Vol. 40 (2006), p. 3-9 [3] N.
Ni: China Mechanical Engineering, Vol. 8 (1997), p. 29-33 [6] W.Q.
Tabatabaie: Proceedings of the Institution of Mechanical Engineers (Part B Engineering Manufacture), Vol. 222 (2008), p. 309-318 [11] Y.
Gelvis: International Journal of Advanced Manufacturing Technology, Vol. 35 (2007), p. 745-750
Online since: June 2020
Authors: Bambang Suharno, Sugeng Supriadi, Nurul Ilmaniar, Annisa Ovilia
Formation of TiO2 Thin Film on Antibacterial Metal Injection Molding Stainless Steel Orthodontic Bracket 17-4 PH Using Physical Vapor Deposition Method
Sugeng Supriadi1,a, Annisa Ovilia2, Nurul Ilmaniar2 and Bambang Suharno2
1Department of Mechanical Engineering, Faculty of Engineering, Universitas Indonesia, Depok, 16424, Indonesia
2Department of Metallurgy and Materials Engineering, Faculty of Engineering, Universitas Indonesia, Depok, 16424, Indonesia
asugeng@eng.ui.ac.id
Keywords: Orthodontic bracket, metal injection molding, stainless steel 17-4 precipitation hardening, sintering atmosphere, magnetron sputtering PVD TiO2.
The diffraction patterns are scattered in accordance to the characteristics of TiO2 film which classified into ceramic materials.
Jinawath, “Effect of Sample Separation Processing Techniques on Particle Size and Photocatalytic Activity of TiO2 from Microwave-Assisted Synthesis,” International Journal of Materials, Mechanics and Manufacturing. 1(3), 269-273 (2013)
The diffraction patterns are scattered in accordance to the characteristics of TiO2 film which classified into ceramic materials.
Jinawath, “Effect of Sample Separation Processing Techniques on Particle Size and Photocatalytic Activity of TiO2 from Microwave-Assisted Synthesis,” International Journal of Materials, Mechanics and Manufacturing. 1(3), 269-273 (2013)
Online since: January 2016
Authors: Monita Olivia, Chrisfela Wulandari, Iskandar R. Sitompul, Lita Darmayanti, Zulfikar Djauhari
Acknowledgement
The authors would like to acknowledge the Geopolymer research group Universitas Riau, all member of Final Year Project Group Batch 1 and 2, and Structural Engineering and Concrete Technology Laboratories, Faculty of Engineering, Universitas Riau.
Rangan: Australian Structural Engineering Conference (2005)
Skvara: Ceramics-Silikaty Vol 50(2006): p.1
Journal of Materials in Civil Engineering (2015)
Wang: Bulletin of Engineering Geology Environmental Vol 65 (2006): p.445.
Rangan: Australian Structural Engineering Conference (2005)
Skvara: Ceramics-Silikaty Vol 50(2006): p.1
Journal of Materials in Civil Engineering (2015)
Wang: Bulletin of Engineering Geology Environmental Vol 65 (2006): p.445.
Online since: October 2015
Authors: Nataliia V. Sevodina, Nataliia A. Yurlova, Dmitriy A. Oshmarin
This state of affairs conflicts with the interests of practical engineers, who prefer to rely on the substantiated solutions.
However, as it is generally recognized, the modal analysis of electroviscous elastic bodies representing the engineering structural materials with the built-in piezoelectric elements provides information on the relative electric potential generated on the electrode surface of the piezo element, which can also be used for searching the optimal variants of the element location.
A piezoelectric element is made of PZT-4-z ceramics characterized by the following parameters: (N/m2), (N/m2), (N/m2), (N/m2), (N/m2), (N/m2), (C/m2), (C/m2), (C/m2), (F/m), (F/m), (kg/m3).
-J., An Effective Approach for Optimal PZT Vibration Absorber Placement on Composite Structures, Modern Mechanical Engineering. 3 (2013) 21-26
[18] Kligman E.P., Matveenko V.P., Natural Vibration Problem of Viscoelastic Solids as Applied to Optimization of Dissipative Properties of Constructions, International Journal of Vibration and Control. 3(1) (1997) 87-102
However, as it is generally recognized, the modal analysis of electroviscous elastic bodies representing the engineering structural materials with the built-in piezoelectric elements provides information on the relative electric potential generated on the electrode surface of the piezo element, which can also be used for searching the optimal variants of the element location.
A piezoelectric element is made of PZT-4-z ceramics characterized by the following parameters: (N/m2), (N/m2), (N/m2), (N/m2), (N/m2), (N/m2), (C/m2), (C/m2), (C/m2), (F/m), (F/m), (kg/m3).
-J., An Effective Approach for Optimal PZT Vibration Absorber Placement on Composite Structures, Modern Mechanical Engineering. 3 (2013) 21-26
[18] Kligman E.P., Matveenko V.P., Natural Vibration Problem of Viscoelastic Solids as Applied to Optimization of Dissipative Properties of Constructions, International Journal of Vibration and Control. 3(1) (1997) 87-102
Online since: June 2017
Authors: Kan Zhang, Peng Fei Yu, Wei Tao Zheng, Mao Wen, Ping Ren, Su Xuan Du
Introduction
Y2O3, a member of the rare earth sesquioxides with fascinating properties such as wide band gap [1], high dielectric constant [2, 3] and high refractive index [4], has been studied for semiconductor or sensor engineering and optical waveguide applications.
Xiao, Yttrium oxide films prepared by pulsed laser deposition, Journal of applied physics, 83 (1998) 3842-3848
Swamy, High-temperature powder x-ray diffraction of yttria to melting point, Journal of Materials Research, 14 (1999) 456-459
Han, Controllable phase formation and physical properties of yttrium oxide films governed by substrate heating and bias voltage, Ceramics International, 41 (2015) 8921-8930
Luo, Optimal Preparation and Characterization of Sputtered Y2O3 Films on Sapphire Substrates, Key Engineering Materials, 602-603 (2014) 266-269.
Xiao, Yttrium oxide films prepared by pulsed laser deposition, Journal of applied physics, 83 (1998) 3842-3848
Swamy, High-temperature powder x-ray diffraction of yttria to melting point, Journal of Materials Research, 14 (1999) 456-459
Han, Controllable phase formation and physical properties of yttrium oxide films governed by substrate heating and bias voltage, Ceramics International, 41 (2015) 8921-8930
Luo, Optimal Preparation and Characterization of Sputtered Y2O3 Films on Sapphire Substrates, Key Engineering Materials, 602-603 (2014) 266-269.