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Online since: September 2013
Authors: Xin Xing Feng, Ya Yang Xu, Yue Rong Li, Hai Lin Zhu, Jian Yong Chen, Cai Hong Lei
Therefore, this method provides a simple way to prepare scaffolds for bone tissue engineering.
Therefore, the prepared MBG scaffolds and MBG/SF composite scaffolds have similar macroporous structures for bone tissue engineering.
And MBG/SF composite scaffolds were also successfully developed for bone tissue engineering through a SF solution dip-coating method.
Biomimetic chitosan-nanohydroxyapatite composite scaffolds for bone tissue engineering [J].
Journal of the American Ceramic Society, 1991, 74(7): 1487-1510.
Therefore, the prepared MBG scaffolds and MBG/SF composite scaffolds have similar macroporous structures for bone tissue engineering.
And MBG/SF composite scaffolds were also successfully developed for bone tissue engineering through a SF solution dip-coating method.
Biomimetic chitosan-nanohydroxyapatite composite scaffolds for bone tissue engineering [J].
Journal of the American Ceramic Society, 1991, 74(7): 1487-1510.
Online since: May 2012
Authors: Zhi Gui Qin, Kang Zhao, Ning Liu, Xian He Mao, Min Chen, Xiao Ning Yuan
Glass-ceramic
metallic iron
b.
Journal of Physics, vol.53A (2003), pp.
Key Engineering Materials, vol.217 (2002), pp.193–200
Journal of Nuclear Materials, vol.378 (2008), pp. 98–104
West Conshohocken: ASTM International. (2002) [21] X.
Journal of Physics, vol.53A (2003), pp.
Key Engineering Materials, vol.217 (2002), pp.193–200
Journal of Nuclear Materials, vol.378 (2008), pp. 98–104
West Conshohocken: ASTM International. (2002) [21] X.
Online since: September 2011
Authors: Yang Yang, Yu Guo Wang, L.P. Sun, X.R. Yu, Bin Lin
Lin1, e
1Key Laboratory of Advanced Ceramics and Machining Technology, (Tianjin University), Ministry of Education, China, 300072
2School of Chemical Engineering, Tianjin University, China, 300072
ademon19860202@163.com, bwyuguo@sina.com, cyangyang1683168@sina.com, dyuxr1108@sina.com, etdlinbin@126.com
Keywords: Microwave ferrite, Grinding parameters, Grinding forces
Abstract.
There are numbers of efficient grinding of engineering ceramics in recent years, such as high speed grinding [6,7], creep feed grinding [8], etc.
Dai: Journal of Harbin Institute of Technology.
Ramesh: International Journal of Advanced Manufacturing Technology.
Lin: Rare Metal Materials and Engineering.
There are numbers of efficient grinding of engineering ceramics in recent years, such as high speed grinding [6,7], creep feed grinding [8], etc.
Dai: Journal of Harbin Institute of Technology.
Ramesh: International Journal of Advanced Manufacturing Technology.
Lin: Rare Metal Materials and Engineering.
Online since: September 2014
Authors: Bai Kuan Liu, Xiao Li Tian, Zheng Guo
Ceramics International, 2001 (27) : 455 - 459
Journal of the European Ceramic Society, 2007 (27) : 1651-1655
Ceramics International. 38 (2012) 1315-1318
Journal of the European Ceramic Society. 27 (2007) 4633-4638
Rare Metal Materials and Engineering, 2008, 37(z1): 592-596.
Journal of the European Ceramic Society, 2007 (27) : 1651-1655
Ceramics International. 38 (2012) 1315-1318
Journal of the European Ceramic Society. 27 (2007) 4633-4638
Rare Metal Materials and Engineering, 2008, 37(z1): 592-596.
Online since: June 2017
Authors: Jing Zhu, Jun Rong Yu, Zu Ming Hu, Jing Li, Guo Cheng Song, Yan Wang
Shi, Fabrication of ZrO2 ceramic fiber mats by solution blowing process, Ceramics International 40 (2014) 15013-15018
Cheng, Solution blowing of continuous carbon nanofiber yarn and its electrochemical performance for supercapacitors, Chemical Engineering Journal 237 (2014) 308-311
Carvalho, YBCO ceramic nanofibers obtained by the new technique of solution blow spinning, Ceramics International 42 (2016) 16230-16234
Carvalho, YBCO ceramic nanofibers obtained by the new technique of solution blow spinning, Ceramica International 42 (2016) 16230-16234
Orts, Structural and Morphological Characterization of Micro and Nanofibers Produced by Electrospinning and Solution Blow Spinning: A Comparative Study, Advances in Materials Science and Engineering 1 (2013) 438-442
Cheng, Solution blowing of continuous carbon nanofiber yarn and its electrochemical performance for supercapacitors, Chemical Engineering Journal 237 (2014) 308-311
Carvalho, YBCO ceramic nanofibers obtained by the new technique of solution blow spinning, Ceramics International 42 (2016) 16230-16234
Carvalho, YBCO ceramic nanofibers obtained by the new technique of solution blow spinning, Ceramica International 42 (2016) 16230-16234
Orts, Structural and Morphological Characterization of Micro and Nanofibers Produced by Electrospinning and Solution Blow Spinning: A Comparative Study, Advances in Materials Science and Engineering 1 (2013) 438-442
Online since: February 2014
Authors: Azwar Manaf, Bambang Soegiono, Viktor Vekky Ronald Repi
Microwave properties of composite Ba0.5Sr0.5Fe11.7Mn0.15Ti0.15O19/La0.7Ba0.3MnO3 material
Viktor Vekky Ronald Repi1,2,a,Azwar Manaf1,b, Bambang Soegiono1
1Postgraduate Program of Materials Science,Jalan Salemba Raya 4, Jakarta 10430,
Department of Physics, Universitas Indonesia, Indonesia
2Department of Physics Engineering, Universitas Nasional, Jakarta, Indonesia
avekky_repi@yahoo.com(corresponding author)bazwar@ui.ac.id
Keywords: Microwave properties, composite material, magnetic and electric material, absorber material, mechanical alloying.
Absorbers material can be produced as ceramics material or as composites material.
MATERIAL AND METHOD B0.5Sr0.5Fe11.7Mn0.15Ti0.15O19 (A) and La0.7Ba0.3MnO3 (B) were prepared by using conventional ceramic method.
Agarwala, “Development of hard/soft ferrite nanocomposite for enhanced microwave absorption,” Ceramics International, no. 37, pp. 2631-2641, 2011
Naresh, “Structure, ac conductivity and complex impedance study of Co3O4 and Fe3O4 mixed spinel ferrites,” International Journal of Engineering, Science and Technology, vol. 2, no. 8, pp. 40-52, 2010
Absorbers material can be produced as ceramics material or as composites material.
MATERIAL AND METHOD B0.5Sr0.5Fe11.7Mn0.15Ti0.15O19 (A) and La0.7Ba0.3MnO3 (B) were prepared by using conventional ceramic method.
Agarwala, “Development of hard/soft ferrite nanocomposite for enhanced microwave absorption,” Ceramics International, no. 37, pp. 2631-2641, 2011
Naresh, “Structure, ac conductivity and complex impedance study of Co3O4 and Fe3O4 mixed spinel ferrites,” International Journal of Engineering, Science and Technology, vol. 2, no. 8, pp. 40-52, 2010
Online since: May 2015
Authors: Mohamed Haneef, Syed Zameer
Hazelwood et al: International Journal of Fatigue Vol 29 (2007) 1057-1064
[4] George Matsoukas et al: Jour of Biomechanical Engineering, ASME Vol 131, (2009)
[5] S.Mollazadeh et al: International journal of Ceramics Vol 33 (2007) 1579-1583
[6] S.H Toeh: International Journal of Fatigue 22 (2000), 825-837
Roy Chowdhury et al: International journal of wear 256 (2004) 1026-1036
[4] George Matsoukas et al: Jour of Biomechanical Engineering, ASME Vol 131, (2009)
[5] S.Mollazadeh et al: International journal of Ceramics Vol 33 (2007) 1579-1583
[6] S.H Toeh: International Journal of Fatigue 22 (2000), 825-837
Roy Chowdhury et al: International journal of wear 256 (2004) 1026-1036
Online since: December 2010
Authors: Deepika Sharma, Kamlesh Chandra, Prabhu Shankar Misra
Role of Silicon in PM Processed Soft Magnetic Alloy
Deepika Sharmaa, Kamlesh Chandra and Prabhu Shankar Misra
Department of Metallurgical and Materials Engineering
Indian Institute of Technology
Roorkee 247667
India
adeepumaterials@gmail.com
Keywords: Magnetic, Microstructure, Powder Metallurgy
Abstract
Iron-Phosphorus based soft magnetic materials are known for their hot and cold shortness.
Shivanath: International Journal of Powder Metallurgy, 33 (1997) 37 [4] K.H.
Lund: International Journal of Powder Metallurgy, 27 (1991) 9 [8] P.S.
Misra: International Journal of Materials Science, accepted [12] D.
Narasimhan: International Journal of Powder Metallurgy, 40 (2004) 25
Shivanath: International Journal of Powder Metallurgy, 33 (1997) 37 [4] K.H.
Lund: International Journal of Powder Metallurgy, 27 (1991) 9 [8] P.S.
Misra: International Journal of Materials Science, accepted [12] D.
Narasimhan: International Journal of Powder Metallurgy, 40 (2004) 25
Online since: October 2006
Authors: Motoyasu Kinoshita
This restructuring was investigated in the
field of nuclear engineering of power reactor fuel industry.
This presentation briefly provides observations of this restructuring and some of engineering consequences.
Introduction Understanding of the restructuring process of material under irradiation is a key for nuclear engineering.
And how far the structure proceeds into the pellet center was the practical engineering question from fuel venders and utilities.
In future study, it is expected to find extended potential of ceramics (good use in engineering) in performances of repairing and ordering under high energy irradiation.
This presentation briefly provides observations of this restructuring and some of engineering consequences.
Introduction Understanding of the restructuring process of material under irradiation is a key for nuclear engineering.
And how far the structure proceeds into the pellet center was the practical engineering question from fuel venders and utilities.
In future study, it is expected to find extended potential of ceramics (good use in engineering) in performances of repairing and ordering under high energy irradiation.
Online since: December 2010
Authors: B.I. Ugheoke, Othman Mamat, B. Ariwahjoedi
Holmquis, Conversion of Quartz to Tridymite, Journal of the American Ceramic Society, 44[2] (1961) 82–6
[27] A.
Veras, Lightweight insulating concretes with rice husk, International Journal of Cement Composites and Lightweight Concrete, 8[3] (1986) 171-80 [54] P.
Venugopal, Effect of rice husk ash in whiteware compositions, Ceramics International, 27[6] (2001) 629-35 [56] N.
Sevinç, Studies on silica obtained from rice husk, Ceramics International, 27[2] (2001) 219-24 [57] Tzong-Horng Liou, Preparation and characterization of nano-structured silica from rice husk, Materials Science and Engineering, 364[1-2] (2004) 313-23 [58] R.
Mahachai, Effect of grinding on chemical and physical properties of rice husk ash, International Journal of Minerals, Metallurgy and Materials, 16[2] (2009) 242-7
Veras, Lightweight insulating concretes with rice husk, International Journal of Cement Composites and Lightweight Concrete, 8[3] (1986) 171-80 [54] P.
Venugopal, Effect of rice husk ash in whiteware compositions, Ceramics International, 27[6] (2001) 629-35 [56] N.
Sevinç, Studies on silica obtained from rice husk, Ceramics International, 27[2] (2001) 219-24 [57] Tzong-Horng Liou, Preparation and characterization of nano-structured silica from rice husk, Materials Science and Engineering, 364[1-2] (2004) 313-23 [58] R.
Mahachai, Effect of grinding on chemical and physical properties of rice husk ash, International Journal of Minerals, Metallurgy and Materials, 16[2] (2009) 242-7