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Online since: May 2015
Authors: Edward Gobina, Mohammed Nasir Kajama, Ngozi Claribelle Nwogu
Hydrogen Separation Using Inorganic Membranes
Mohammed Nasir Kajama1, Ngozi Claribelle Nwogu1 and Edward Gobina1*
1Centre for Process Integration and Membrane Technology, (CPIMT), School of Engineering, The Robert Gordon University, Aberdeen, AB10 7GJ.
The ceramic membranes had a 30 and 6000 nm pore diameter.
Ahmad, Gas permeation characteristics across nano-Porous inorganic membranes, IIUM Engineering Journal, 5 (2004) 17-33
Gobina, Purification of Gases Using Nanoporous Inorganic Membranes, International Journal of Scientific Engineering and Technology, 3 (2014) 1156-1159
Mustafa, Sol-gel synthesized of nanocomposite palladium-alumina ceramic membrane for H2 permeability: preparation and characterisation, International Journal of Hydrogen Energy, 32 (2007) 2010-2021
The ceramic membranes had a 30 and 6000 nm pore diameter.
Ahmad, Gas permeation characteristics across nano-Porous inorganic membranes, IIUM Engineering Journal, 5 (2004) 17-33
Gobina, Purification of Gases Using Nanoporous Inorganic Membranes, International Journal of Scientific Engineering and Technology, 3 (2014) 1156-1159
Mustafa, Sol-gel synthesized of nanocomposite palladium-alumina ceramic membrane for H2 permeability: preparation and characterisation, International Journal of Hydrogen Energy, 32 (2007) 2010-2021
Online since: August 2018
Authors: Ying Chun Zhang, Jun Dan Chen, Yun Zhang, Meng Juan Wu
Preparation, Performances and Reaction Process of NiZrNb2O8 Microwave Dielectric Ceramics
Mengjuan Wua, Yingchun Zhangb*, Jundan Chen, Yun Zhang
University of Science and Technology Beijing, School of Material Science and Engineering,
Beijing 100083, P.R.
Kim, Characterization of crystal structure and microwave dielectric properties of AZrNb2O8 (A=Zn, Co, Mg, Mn) ceramics based on complex bond theory, Ceramics International 42(5) (2016) 5785-5791
Journal of Alloys and Compounds 656 (2016) 470-475
Journal of the American Ceramic Society 99(9) (2016) 2871-2874
Fusion Engineering and Design. 102 (2016) 1-7
Kim, Characterization of crystal structure and microwave dielectric properties of AZrNb2O8 (A=Zn, Co, Mg, Mn) ceramics based on complex bond theory, Ceramics International 42(5) (2016) 5785-5791
Journal of Alloys and Compounds 656 (2016) 470-475
Journal of the American Ceramic Society 99(9) (2016) 2871-2874
Fusion Engineering and Design. 102 (2016) 1-7
Online since: January 2016
Authors: Rosemar Batista da Silva, Márcio Bacci da Silva, Wisley Falco Sales, Emanuel Okechukwu Ezugwu, Álisson Rocha Machado
Tool wear in titanium machining, Annals of the International Institution for Production Engineering Research (CIRP), vol. 31, (1), pp 75-80
The effects of a high pressure coolant jet on machining, Proceedings of The Institute of Mechanical Engineers - IMECHE - Part B1, Journal of Engineering Manufacture, vol. 208, London – UK, pp 29-38, doi:10.1243/PIME_PROC_1994_208_057_02 [16] Jawaid, A.; Che-Haron, C.H.; Abdullah, A., 1999.
On tool materials for high speed machining, Journal of Engineering for Industry, vol. 109, pp 87-91
Material removal mechanism beyond plastic wave propagation rate, Precision Engineering, vol. 27, pp 109-116
Microstructural analysis on boundary sliding and its accommodation mode during superplastic deformation of Ti–6Al–4V alloy, Materials Science and Engineering, vol.
The effects of a high pressure coolant jet on machining, Proceedings of The Institute of Mechanical Engineers - IMECHE - Part B1, Journal of Engineering Manufacture, vol. 208, London – UK, pp 29-38, doi:10.1243/PIME_PROC_1994_208_057_02 [16] Jawaid, A.; Che-Haron, C.H.; Abdullah, A., 1999.
On tool materials for high speed machining, Journal of Engineering for Industry, vol. 109, pp 87-91
Material removal mechanism beyond plastic wave propagation rate, Precision Engineering, vol. 27, pp 109-116
Microstructural analysis on boundary sliding and its accommodation mode during superplastic deformation of Ti–6Al–4V alloy, Materials Science and Engineering, vol.
Online since: August 2014
Authors: Chun Hui Su, Qiong Song, Li Mei Jiang, Xiao Wei Zhu, Shuang Deng, Jing Shao, Xiang Yu Zou, Qin Lei Wei, Hong Bo Zhang
Synthesis and Characterization of Eu3+-Doped Transparent Glass-ceramics Containing Nanocrystalline AlNbO4
Qiong Song1,2,a, Chunhui Su*1,3,b, Hongbo Zhang*1,c,Jing Shao1, Xiangyu Zou1, Qinlin Wei1,Xiaowei Zhu1,2,Shuang Deng1,Limei Jiang1
1School of Material Science and Engineering,Changchun University of Science and Technology, Changchun 130022,china
2School of Food Engineering, Jilin Teacher′s Institute of Engineering and Technology, Changchun 130052, china
3Changchun Normal University, Changchun 130032, china
asq0902@126.coml, bsch@cust.edu.cn, czhb5388460@126.com
Keywords: Transparent glass-ceramics, Luminescence, Nano-crystallized AlNbO4.
Introduction Transparent glass ceramics is an important part of the glass ceramic materials, It has the advantages of low phonon energy and rare earth ions doped with high concentration[1,2].
The microstructure of glass–ceramics was studied by the SEM.
[2] Yu Yunlong, Chen Daqin, Huang Ping:Ceramics International.
[4] Pornpis Kongputhon, Anuson Niyompan, Rungnapa TIpakontitikul:Journal of Crystal Growth.Vol.30(2013), p. 116-120
Introduction Transparent glass ceramics is an important part of the glass ceramic materials, It has the advantages of low phonon energy and rare earth ions doped with high concentration[1,2].
The microstructure of glass–ceramics was studied by the SEM.
[2] Yu Yunlong, Chen Daqin, Huang Ping:Ceramics International.
[4] Pornpis Kongputhon, Anuson Niyompan, Rungnapa TIpakontitikul:Journal of Crystal Growth.Vol.30(2013), p. 116-120
Online since: June 2015
Authors: K.V. Sreenivas Rao, H.S. Mohan, T.P. Bharathesh, Ravikumar Beeranur
LASER ASSISTED BRAZING OF CERAMIC AND TITANIUM ALLOY USING CU-AG FILLER MATERIAL
H.S.MOHAN1,a*,T.P.BHARATHESH2,b,K.V.SREENIVAS RAO3,c, RAVIKUMAR BEERANUR4,d
1Department Of Mechanical Engineering, BrCE, Karnataka, India
2Department Of Mechanical Engineering, AMC, Bangalore, Karnataka, India
3Department Of Mechanical Engineering, SIT, Tumkur, Karnataka, India
4Department Of Mechanical Engineering, NIE, Mysore, Karnataka, India
amohan.hs19@gmail.com,bbarussit@gmail.com,ckvsreenivasarao@yahoo.com,
drbniemech@gmail.com
Key words: Laser brazing, titanium, alumina, filler material
Abstract
The joining of ceramic to structural alloys has received much attention in recent years because of its potentially attractive properties.
M.Rohde et al “Joining of alumina and steel by a laser supported brazing process” Ceramic International, 35 (2007) pp. 333-337
MatteoGalli et al “Characterization of the Residual Stress and Strength of Ceramic-Metal Braze Joints” Journal of Engineering Material and Technology, 131 (2009) pp. 021004-1
W.Lippmannet al “Laser joining of silicon carbide-a new technology for ultra-high temperature resistant joints” Nuclear Engineering and Design, 231 (2004) pp.15-161
Mally, “ Ceramic-to-Metal Joining with Active Brazing filler Metal” 16th International AWS Brazing Conference, Las Vegas, new, April 1985 pp.27-32
M.Rohde et al “Joining of alumina and steel by a laser supported brazing process” Ceramic International, 35 (2007) pp. 333-337
MatteoGalli et al “Characterization of the Residual Stress and Strength of Ceramic-Metal Braze Joints” Journal of Engineering Material and Technology, 131 (2009) pp. 021004-1
W.Lippmannet al “Laser joining of silicon carbide-a new technology for ultra-high temperature resistant joints” Nuclear Engineering and Design, 231 (2004) pp.15-161
Mally, “ Ceramic-to-Metal Joining with Active Brazing filler Metal” 16th International AWS Brazing Conference, Las Vegas, new, April 1985 pp.27-32
Online since: October 2010
Authors: Humberto Gracher Riella, J.C. de Lima, A.M. Maliska, N.C. Kuhnen, C.T. Kniess, P.B. Prates
Maliska1
1 Mechanic Engineering Department,
2 Physics Department,
3 Chemical Engineering Department,
Federal University of Santa Catarina, Florianopolis, SC, Brazil
a kniesscl@gmail.com; Claudia.kniess@ibirapuera.br
Key-words: X Ray diffraction technique, Rietveld Method, ceramic materials.
X Ray patterns of ceramic materials, sinterized under the temperature of 11500C.
Journal of Applied Crystallographic. v. 28, p.121-126, (1995)
[4] ICDD (International Center for Diffraction Data, JCPDS (Joint Committee of Powder Diffraction Standards).
Journal of Applied Crystallographic. v. 32, p. 36-50, (1990)
X Ray patterns of ceramic materials, sinterized under the temperature of 11500C.
Journal of Applied Crystallographic. v. 28, p.121-126, (1995)
[4] ICDD (International Center for Diffraction Data, JCPDS (Joint Committee of Powder Diffraction Standards).
Journal of Applied Crystallographic. v. 32, p. 36-50, (1990)
Online since: April 2010
Authors: Shu Feng Ye, Peng Liu, Lian Qi Wei, Xun Zhou, Yu Sheng Xie, Yun Fa Chen
Preparation and Property of Ceramic Matrix Coating of Anti-
Oxidation for Stainless Steel at High Temperature by Slurry Method
Liu Peng1, 2, a, Wei Lianqi1 , Ye Shufeng
1,b, Zhou Xun
1,2, Xie Yusheng1 and
Chen Yunfa1
1
State Key Laboratory of Multiphase Complex Systems, Institute of Process Engineering,
Chinese Academy of Sciences, Beijing 100190, China
2
Graduate University of Chinese Academy of Sciences, Beijing 100049, China
a
pengliu@home.ipe.ac.cn, bsfye@home.ipe.ac.cn
Keywords: Stainless steel; Anti-oxidation; Ceramic matrix coating
Abstract.
The ceramic matrix coating used in this study was from SiO2-MgO-CaO-P2O5 system.
Thermal properties of the ceramic matrix coating were performed on a TG-DTA.
Kitayama: ISIJ International Vol. 30 (1990), P. 255
Zhang: Journal of Power Sources Vol. 185 (2008), P. 419
The ceramic matrix coating used in this study was from SiO2-MgO-CaO-P2O5 system.
Thermal properties of the ceramic matrix coating were performed on a TG-DTA.
Kitayama: ISIJ International Vol. 30 (1990), P. 255
Zhang: Journal of Power Sources Vol. 185 (2008), P. 419
Online since: June 2013
Authors: Xiu Guo Xu, Chun Lin Wang, Chong Hai Xu
Tool Engineering, 2002, 36(12):8-11
[3] Guangyong Wu.
China Mechanical Engineering, 2008, (20): 2419-2422(In Chinese) [6] T.
Tool Engineering, 2003, 39(08):17-21 [13] A.
Tool Engineering, 2009, 43(09):29-32(In Chinese) [15] Xiaoping Wang, Gang Yang, etal.
Tool Engineering, 2011, 45(07):52-55(In Chinese) [16] Youjun Wang, Dinghua Zhang.
China Mechanical Engineering, 2008, (20): 2419-2422(In Chinese) [6] T.
Tool Engineering, 2003, 39(08):17-21 [13] A.
Tool Engineering, 2009, 43(09):29-32(In Chinese) [15] Xiaoping Wang, Gang Yang, etal.
Tool Engineering, 2011, 45(07):52-55(In Chinese) [16] Youjun Wang, Dinghua Zhang.
Online since: October 2011
Authors: Huai Yong Li, Li Zhong Xu
Engineering Science,2002,4(2):86-91.
(in Chinese) [2] Zhu Hua, Zeng Jinsong, Zhao Chunsheng: Dynamics analysis and optimal design of the stator for a rod - shape ultrasonic motor[J] .China Mechanical Engineering,2008,19(21):2627-2632.
Journal of Vibration and Shock, 2004,23(2):48-51.
ND T and E International ,2000,33(8):531-545
Journal of Vibration, Measurement &Diagnosis, 2005, 25(3):167-173.
(in Chinese) [2] Zhu Hua, Zeng Jinsong, Zhao Chunsheng: Dynamics analysis and optimal design of the stator for a rod - shape ultrasonic motor[J] .China Mechanical Engineering,2008,19(21):2627-2632.
Journal of Vibration and Shock, 2004,23(2):48-51.
ND T and E International ,2000,33(8):531-545
Journal of Vibration, Measurement &Diagnosis, 2005, 25(3):167-173.
Online since: January 2021
Authors: Mohammed Mahdi, M. Kadri
DOI: 10.1007
[7] Rohan, Ghosh.; Alkausil, Tamboli.; Vimala, Juliet.Simulation and Analysis of MEMS based Multistep Piezoelectric Actuator International Journal of Pure and Applied Mathematics. 118(2018) 277-281.
Journal of Elec Materi. 47 (2018) 3709–3716.
Journal of The American Ceramic Society. 48(1965) 289-291.DOI:10.1111/j.1151-2916.1965.tb14743.x [28] S.
Journal of The American Ceramic Society, 64 (1981) 422-425 doi:10.1111/j.1151-2916.1981.tb09883.x [30] Tsuchiya, K.; Kitagawa, T.
Precision Engineering. 27(2003) 258-264.
Journal of Elec Materi. 47 (2018) 3709–3716.
Journal of The American Ceramic Society. 48(1965) 289-291.DOI:10.1111/j.1151-2916.1965.tb14743.x [28] S.
Journal of The American Ceramic Society, 64 (1981) 422-425 doi:10.1111/j.1151-2916.1981.tb09883.x [30] Tsuchiya, K.; Kitagawa, T.
Precision Engineering. 27(2003) 258-264.