Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: July 2016
Authors: Hai Tao Yang, Ling Gao, Xue Xian Cai, Chao Xiao, Hai Peng Yang, Chen Bing Pi, Ji Hua Gao
Sintering of High Quality Titanium-Doped Zinc Oxide Ceramic Sputtering Target
Chen Bing Pi a, Xue Xian Cai, Chao Xiao, Hai Peng Yang, Ji Hua Gao,
Ling Gao, Hai Tao Yang *
Key Laboratory of Functional Materials of Shenzhen, Shenzhen Engineering Laboratory for Advanced Technology of Ceramics, College of Materials Science and Engineering, Shenzhen University, Shenzhen, 518060, China
a504107723@qq.com, *Corresponding author yanght63@szu.edu.cn
Keywords : ZnO; ZTO ceramic target; sintering
Abstract.
Golobostanfard, Ceramics International. 39 (2013) 6953-6961
Chang, et al., Microelectronic Engineering. 86 (2009) 628–631
SeogGwag, Ceramics International. 41 (2015) 617-621
Song, et al., Ceramics International. 40 (2014) 12905-12915
Golobostanfard, Ceramics International. 39 (2013) 6953-6961
Chang, et al., Microelectronic Engineering. 86 (2009) 628–631
SeogGwag, Ceramics International. 41 (2015) 617-621
Song, et al., Ceramics International. 40 (2014) 12905-12915
Online since: February 2013
Authors: Han Xing Liu, Hua Hao, Ming He Cao, Gui Fang Zhang
Materials Science and Engineering: B, Vol. 99 (2003), p. 226–229
Ceramics International, Vol. 34 (2008), p. 873–876
Journal of Materials Science: Materials in Electronics, Vol. 18 (2007), p. 381-384
Journal of the European Ceramic Society, Vol.29 (2009), p. 1501–1506
Journal of the European Ceramic Society, Vol. 24 (2004), p. 3303–3306.
Ceramics International, Vol. 34 (2008), p. 873–876
Journal of Materials Science: Materials in Electronics, Vol. 18 (2007), p. 381-384
Journal of the European Ceramic Society, Vol.29 (2009), p. 1501–1506
Journal of the European Ceramic Society, Vol. 24 (2004), p. 3303–3306.
Online since: February 2015
Authors: Zainal Arifin Ahmad, Hanisah Manshor, Ezzat Chan Abdullah, Ahmad Zahirani Ahmad Azhar, Suriyana Md Aris
a,d Malaysia - Japan International Institute of Technology (MJIIT), Universiti Teknologi Malaysia Kuala Lumpur, Jalan Semarak, 54100 Kuala Lumpur, Malaysia
b,c Department of Manufacturing and Materials Engineering, Faculty of Engineering, International Islamic University Malaysia, Batu 8 Jalan Gombak, Selangor
eStructural Materials Niche Area, School of Materials & Mineral Resources Engineering, Universiti Sains Malaysia, 14300 Nibong Tebal, Penang, Malaysia
ahanisahmanshor@gmail.com, bsuri_tf90@yahoo.com, c,*zahirani@iium.edu.my, dezzatc@utm.my, ezainal@eng.usm.my
Keywords: Zirconia-Toughened Alumina (ZTA), TiO2, microstructure, Vickers hardness
Abstract.
Zhou, Microstructure and superplastic behavior of TiO2-doped Al2O3–ZrO2 (3Y) composite ceramics, Materials Science and Engineering: A. 554 (2012) 6-11
Biest, Toughness tailoring of yttria-doped zirconia ceramics, Materials Science and Engineering: A. 380 (2004) 215-221
Tunkasiri, Effect of adding Y2O3 on structural and mechanical properties of Al2O3–ZrO2 ceramics, Ceramics International. 39 (2013) 433-436
Zhou, Effects of liquid phases on densification of TiO2-doped Al2O3–ZrO2 composite ceramics, Ceramics International. 40 (2014) 3989-3993
Zhou, Microstructure and superplastic behavior of TiO2-doped Al2O3–ZrO2 (3Y) composite ceramics, Materials Science and Engineering: A. 554 (2012) 6-11
Biest, Toughness tailoring of yttria-doped zirconia ceramics, Materials Science and Engineering: A. 380 (2004) 215-221
Tunkasiri, Effect of adding Y2O3 on structural and mechanical properties of Al2O3–ZrO2 ceramics, Ceramics International. 39 (2013) 433-436
Zhou, Effects of liquid phases on densification of TiO2-doped Al2O3–ZrO2 composite ceramics, Ceramics International. 40 (2014) 3989-3993
Online since: September 2013
Authors: Yi Lai Zhang, Fu Bao He, Hong Chen, Tong Jun Guo
Customer Satisfaction Evaluation of Ceramic E-commerce Platform
Fubao He1, a, Yilai Zhang2, b, Tongjun Guo3, c, Hong Chen4, d
1,2,3,4 Jingdezhen Ceramic Institute, Jingdezhen, Jiangxi, China, 333001
a26172324@qq.com, btyzyl@qq.com, c273573272 @qq.com, d34491832@qq.com
Keywords: Customer Satisfaction; Analytic Hierarchy Process; Fuzzy Comprehensive Evaluation; Ceramic E-commerce Platform.
China is famous ceramic producing country, its accession to the WTO and the development of international ceramic industry provide unlimited business opportunities to the ceramic enterprises [3].More and more ceramic enterprises begin to develop taking advantage of the e-commerce.
Construction of customer satisfaction evaluation index of ceramic E-commerce platform Construction principle of evaluation index system Ceramic e-commerce platform is an trading platform for ceramic enterprises and customers.
We can get some useful factors for further development of ceramic e-commerce platform through analyzing the evaluation mode result.
References [1] Jianfei Liu: Journal of JiLin University Vol.8 (2006), p.38 (in Chinese) [2] Xue-Yan Wang: Journal of Hebei University of Engineering Vol.7 (2012), p.5-12 (in Chinese) [3] Fei Li: Journal of Chongqing University, Vol.7 (2005), p.18-30 (in Chinese) [4] Fubao He,Yong Xie,Yilai Zhang: Journal of Ceramics, Vol.4(2012), p.513-518 (in Chinese) [5] Ximei Dong: Sci-Tech Information Development & Economy Vol.17 (2007), p.154 (in Chinese) [6] Ting Gao: Modern Business Trade Industry Vol.12 (2009), p.368-369 (in Chinese) [7] Yao Hua,Ying-wen Zhai,Liu Yang: China Market, Vol.6 (2011), p.76-77 (in Chinese) [8] Yang Zhang: Science & Technology Economy Market, Vol.12(2009), p.21-23 (in Chinese)
China is famous ceramic producing country, its accession to the WTO and the development of international ceramic industry provide unlimited business opportunities to the ceramic enterprises [3].More and more ceramic enterprises begin to develop taking advantage of the e-commerce.
Construction of customer satisfaction evaluation index of ceramic E-commerce platform Construction principle of evaluation index system Ceramic e-commerce platform is an trading platform for ceramic enterprises and customers.
We can get some useful factors for further development of ceramic e-commerce platform through analyzing the evaluation mode result.
References [1] Jianfei Liu: Journal of JiLin University Vol.8 (2006), p.38 (in Chinese) [2] Xue-Yan Wang: Journal of Hebei University of Engineering Vol.7 (2012), p.5-12 (in Chinese) [3] Fei Li: Journal of Chongqing University, Vol.7 (2005), p.18-30 (in Chinese) [4] Fubao He,Yong Xie,Yilai Zhang: Journal of Ceramics, Vol.4(2012), p.513-518 (in Chinese) [5] Ximei Dong: Sci-Tech Information Development & Economy Vol.17 (2007), p.154 (in Chinese) [6] Ting Gao: Modern Business Trade Industry Vol.12 (2009), p.368-369 (in Chinese) [7] Yao Hua,Ying-wen Zhai,Liu Yang: China Market, Vol.6 (2011), p.76-77 (in Chinese) [8] Yang Zhang: Science & Technology Economy Market, Vol.12(2009), p.21-23 (in Chinese)
Online since: July 2013
Authors: Ján Duplák, Anton Panda, Karol Vasilko
In engineering is for determination of cutting tools durability used T-vc dependence.
Key Engineering Materials, Trans Tech Publications, Zurich, 317-322 p
International Journal Machining and Machinability of Materials, INDERSCENCE Publisher, Vol.5, No.4, 2009, 383-400 p
In: Key Engineering Materials.
In: Strojarstvo: journal for Theory and Application in Mechanical Engineering.
Key Engineering Materials, Trans Tech Publications, Zurich, 317-322 p
International Journal Machining and Machinability of Materials, INDERSCENCE Publisher, Vol.5, No.4, 2009, 383-400 p
In: Key Engineering Materials.
In: Strojarstvo: journal for Theory and Application in Mechanical Engineering.
Online since: August 2014
Authors: Peng Li, Yong Hong Zhu
Research on Burning Zone Detection Method Based on Flame Image Recognition for Ceramic Roller Kiln
Yonghong Zhu1,a, Peng Li1,b
1 School of Mechanical & Electronic Engineering, Jingdezhen Ceramic Institute, Jingdezhen, China
a zyh_patrick@163.com, b471310080@qq.com
Keywords: Ceramic roller kiln; PTCR; Flame image recognition; Information fusion
Abstract.
Journal of Software , vol.8(2013), p.1897-1905 [3] J.
Procedia Engineering, vol.45(2012), p. 595-601 [4] P.
Journal of Chemical Industry(China), vol.59(2008), p.1839-1842 [5] H.
International Journal of Automation and Computing, vol.11(2014), p.72-77
Journal of Software , vol.8(2013), p.1897-1905 [3] J.
Procedia Engineering, vol.45(2012), p. 595-601 [4] P.
Journal of Chemical Industry(China), vol.59(2008), p.1839-1842 [5] H.
International Journal of Automation and Computing, vol.11(2014), p.72-77
Online since: July 2006
Authors: Gregorio Vargas, Georgina García-Ruiz, Alejandra Chávez-Valdez, Dora A. Cortés-Hernández, Hugo H. Rodríguez, P. Mondragón
Mondragón: 2nd International Conference on
Electrophoretic Deposition.
To be published in the Journal "Key Engineering Materials"
Cortés: 2nd International Conference on Electrophoretic Deposition.
To be published in the Journal "Key Engineering Materials". (2005) [16] P.
Mondragón-Cortez: Advanced Engineering materials. 11 (2003). p. 812-814
To be published in the Journal "Key Engineering Materials"
Cortés: 2nd International Conference on Electrophoretic Deposition.
To be published in the Journal "Key Engineering Materials". (2005) [16] P.
Mondragón-Cortez: Advanced Engineering materials. 11 (2003). p. 812-814
Online since: January 2015
Authors: Kresimir Grilec, Lidija Curkovic, Marijana Majic Renjo, Suzana Jakovljevic, Matija Sakoman, Milan Sladojevic
SEM-EDS Analysis of Composite Al2O3-ZrO2 Ceramics Eroded with SiC Particles
Grilec Kresimir1,a, Curkovic Lidija1,b ,Majic Renjo Marijana1,c ,
Jakovljevic Suzana1,d , Sakoman Matija1,e , Sladojevic Milan2,f
1Faculty of Mechanical Engineering and Naval Architecture, I.
Chinn, (2002), Ceramography: Preparation and Analysis of Ceramic Microstructures, ASM International, USA [2] J.
Wright, The science and engineering of materials, sixth edition, Cengage Learning, Inc. 2010
Haussonne, Oxide slurries stability and powders dispersion: Optimization with zeta potential and rheological measurements, Journal of the European Ceramic Society 19 (1999) 1017-1021 [9] L.
Grilec, Solid particle erosion behaviour of high purity alumina ceramics, Ceramics International, 37 (2011) 29–35
Chinn, (2002), Ceramography: Preparation and Analysis of Ceramic Microstructures, ASM International, USA [2] J.
Wright, The science and engineering of materials, sixth edition, Cengage Learning, Inc. 2010
Haussonne, Oxide slurries stability and powders dispersion: Optimization with zeta potential and rheological measurements, Journal of the European Ceramic Society 19 (1999) 1017-1021 [9] L.
Grilec, Solid particle erosion behaviour of high purity alumina ceramics, Ceramics International, 37 (2011) 29–35
Online since: October 2011
Authors: Wei Wang, Yong Xian Liu, Jerry Y.H. Fuh, Peng Jia Wang
Alumina- zirconia-silica ceramics synthesis by selective laser sintering /melting
Wei WANG 1,2,a, Yongxian LIU 1,b, Jerry Y H FUH 2, Pengjia WANG 1
1 School of Mechanical Engineering and Automation Northeastern University, Liaoning Shenyang 110819, PR.China
2Department of Mechanical Engineering, National University of Singapore , 9 Engineering Drive 1, 117576,Singapore
awangwei_neu@126.com,byxliu@mail.neu.edu. com
Keywords: Rapid prototyping Ceramic powder Direct laser sintering Dental
Abstract.
Introduction In the past 20 years, selective laser sintering(SLS) is one of the important branches of rapid prototyping technology which integrates computer engineering, numerical control technology ,laser technology and material processing technology[1-3].
Deng, D.J.Hu, Ceramic components manufacturing by selective laser sintering, Journal of Materials Processing Technonlogy 187-188(2007) 614-618
Gremillard, Ceramics for medical applications: A picture for the next 20 years, Journal of the European Ceramic Society 29(2009)1245-1255 [5] D.E.
Liu, Development of rapid prototyping system for ceramic shell mold of precision casting Proceedings of the IEEE International Conference on Mechatronics, (2005) 483-486 [9] Yusheng Shi, Di Cheng, Jinhui Liu, Shuhuai Huang.
Introduction In the past 20 years, selective laser sintering(SLS) is one of the important branches of rapid prototyping technology which integrates computer engineering, numerical control technology ,laser technology and material processing technology[1-3].
Deng, D.J.Hu, Ceramic components manufacturing by selective laser sintering, Journal of Materials Processing Technonlogy 187-188(2007) 614-618
Gremillard, Ceramics for medical applications: A picture for the next 20 years, Journal of the European Ceramic Society 29(2009)1245-1255 [5] D.E.
Liu, Development of rapid prototyping system for ceramic shell mold of precision casting Proceedings of the IEEE International Conference on Mechatronics, (2005) 483-486 [9] Yusheng Shi, Di Cheng, Jinhui Liu, Shuhuai Huang.
Online since: February 2009
Authors: Yoshiyuki Uno, Akira Okada, Hai Wang, Takafumi Uwano, Habib Sameh
Study on Electrical Discharge Machining Characteristics
of Electrically Conductive Ceramics
Hai Wang1,a, Akira Okada
1,b, Takafumi Uwano1,c,
Yoshiyuki Uno1,d and Habib Sameh2,e
1Okayama University, 3-1-1, Tsushimanaka, Okayama, 700-8530, Japan
2
Benha University, Shoubra Faculty of Engineering, Shoubra, Cairo, Egypt
a
wang@ntmlab.mech.okayama-u.ac.jp, bokada@mech.okayama-u.ac.jp,
cuwano@ntmlab.mech.okayama-u.ac.jp, duno@mech.okayama-u.ac.jp,
e
sameh_habib@yahoo.com
Keywords: EDM, Electrically conductive ceramics, Electrode wear rate, Removal rate
Abstract.
This paper deals with EDM characteristics of newly develops electrically conductive ceramics.
On the other hand, many types of electrically conductive ceramics have been recently introduced into the market in order to make it possible to machine the ceramics by electrical discharge machining (EDM).
However, electrically conductive ceramics developed recently have more excellent material characteristics, and EDM characteristics of these new ceramics have not yet been made clear sufficiently.
Nishikawa: International Journal of Electrical Machining, January (1996), p. 45 [5] Y.
This paper deals with EDM characteristics of newly develops electrically conductive ceramics.
On the other hand, many types of electrically conductive ceramics have been recently introduced into the market in order to make it possible to machine the ceramics by electrical discharge machining (EDM).
However, electrically conductive ceramics developed recently have more excellent material characteristics, and EDM characteristics of these new ceramics have not yet been made clear sufficiently.
Nishikawa: International Journal of Electrical Machining, January (1996), p. 45 [5] Y.