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Online since: February 2012
Authors: Yong Jun Gu, Qian Li, Jin Liang Huang, Zhong Yan, Li Hua Li, Biao Jin
Wang, et al: JOURNAL OF THE CHINESE CERAMIC SOCIETY.33(2005),p.1453
[7] H.F.
Lin: Journal of the European Ceramic Society.23(2003), p.2593 [11] M.C.
Lin: Journal of the European Ceramic Society. 23(2003),p.2553 [13] I.S.
Kim, et al: Ceramic International.30(2004), p.1181 [14] M.C.
Yen, et al: Journal of the European Ceramic Society.27(2007),p.2835 [15] W.S.
Lin: Journal of the European Ceramic Society.23(2003), p.2593 [11] M.C.
Lin: Journal of the European Ceramic Society. 23(2003),p.2553 [13] I.S.
Kim, et al: Ceramic International.30(2004), p.1181 [14] M.C.
Yen, et al: Journal of the European Ceramic Society.27(2007),p.2835 [15] W.S.
Online since: August 2008
Authors: Fwu Hsing Liu, Yunn Shiuan Liao, Hsiu Ping Wang
Formability of the layer additive Ceramic Part
Fwu-Hsing Liu
1,2,a, Yunn-Shiuan Liao1,b, Hsiu-Ping Wang
2,c
1
Department of Mechanical Engineering, National Taiwan University, Taipei, Taiwan
2
Department of Mechanical Engineering, Lunghwa University of Science and Technology, Taiwan
a
fhliu@mail.lhu.edu.tw,
b
liaoys@ntu.edu.tw, chpwang@mail.lhu.edu.tw,
Keywords: rapid prototyping; gelling; ceramic; laser
Abstract.
Acknowledgements This work was supported by the College of Engineering in Lunghwa University of Science and Technology. 6.
Lin, Rapid prototyping machine based on ceramic laser fusion, International Journal of Advanced Manufacturing Technology.
Liu, et al., Rapid prototyping and manufacturing by gelcasting of metallic and ceramic slurries, Materials Science and Engineering A, Vol. 334, (2002), pp. 187-192
Mo et al, Scaffold development using 3D printing with a starch-based polymer, Materials Science and Engineering: C, Vol. 20, Issues 1-2, (2002), pp. 49-56
Acknowledgements This work was supported by the College of Engineering in Lunghwa University of Science and Technology. 6.
Lin, Rapid prototyping machine based on ceramic laser fusion, International Journal of Advanced Manufacturing Technology.
Liu, et al., Rapid prototyping and manufacturing by gelcasting of metallic and ceramic slurries, Materials Science and Engineering A, Vol. 334, (2002), pp. 187-192
Mo et al, Scaffold development using 3D printing with a starch-based polymer, Materials Science and Engineering: C, Vol. 20, Issues 1-2, (2002), pp. 49-56
Online since: July 2021
Authors: Sergey P. Bogdanov, Aleksei I. Makogon, Andrey Dolgin
Introduction
Due to its unique properties, ceramic materials are used in the wide variety of fields, including the chemical industry, mechanical engineering, electronics, biomedicine, aviation and space technology.
Bengisu, Engineering Ceramics, Springer Science & Business Media, 2013
Peng, Enhanced sintering ability of biphasic calcium phosphate by polymers used for bone scaffold fabrication, Materials Science and Engineering: C 33(7) (2013) 3802–3810
Bernardo, Direct ink writing of wollastonite-diopside glass-ceramic scaffolds from a silicone resin and engineered fillers, Journal of the European Ceramic Society 37(13) (2017) 4187–4195
Sychev, Armored ceramics based on corundum powders "core-shell", Collection of reports of the 11th International Symposium Powder Metallurgy: Surface Engineering, New Powder Composite Materials 1 (2019) 424-430.
Bengisu, Engineering Ceramics, Springer Science & Business Media, 2013
Peng, Enhanced sintering ability of biphasic calcium phosphate by polymers used for bone scaffold fabrication, Materials Science and Engineering: C 33(7) (2013) 3802–3810
Bernardo, Direct ink writing of wollastonite-diopside glass-ceramic scaffolds from a silicone resin and engineered fillers, Journal of the European Ceramic Society 37(13) (2017) 4187–4195
Sychev, Armored ceramics based on corundum powders "core-shell", Collection of reports of the 11th International Symposium Powder Metallurgy: Surface Engineering, New Powder Composite Materials 1 (2019) 424-430.
Online since: April 2012
Authors: Zhong Cai Shao, Tong Zhen Li, Jing Long Gao
Growth of Ceramic Coatings on LY12 Aluminum Alloys by Micro-Arc Oxidation and Microstructure Properties of Ceramic Coatings
Jinglong Gao 1, a, Zhongcai Shao 1,b and Tongzhen Li 1,c
1 College of Material Science and Engineering, Shenyang Ligong University, Shenyang 110168, China
axflgjl@126.com, bzhongcsh@163.com, c6333787@qq.com
Keywords: LY12 Aluminium Alloy; Micro-arc Oxidization; Cell Violate; Ceramic Coatings.
The coatings can be used in many application fields, such as automotive, aerospace, medicine and textile engineering, etc[8] In the present work, ceramic coatings were fabricated on LY12 aluminum alloys in sodium silicate aqueous electrolyte by MAO process.
G .Song, Characterization of A12O3 ceramic coatings on 6063 aluminum alloy prepared in borate electrolytes by micro-arc oxidation, Journal of Alloys and Compounds. 462(2008)99-102
[4] A.V.Kolomeichenko, Reconditioning technology by argon-arc surfacing and hardening by microarc oxidation of components made of aluminium alloys, Welding International. 18(2004) 494-497
[8] G.Yang , X.LÜ, Y.Bai, H.Cui and Z.Jin, The effects of current density on the phase composition and microstructure properties of micro-arc oxidation coating, Journal of Alloys and Compounds. 345(2002)196–200.
The coatings can be used in many application fields, such as automotive, aerospace, medicine and textile engineering, etc[8] In the present work, ceramic coatings were fabricated on LY12 aluminum alloys in sodium silicate aqueous electrolyte by MAO process.
G .Song, Characterization of A12O3 ceramic coatings on 6063 aluminum alloy prepared in borate electrolytes by micro-arc oxidation, Journal of Alloys and Compounds. 462(2008)99-102
[4] A.V.Kolomeichenko, Reconditioning technology by argon-arc surfacing and hardening by microarc oxidation of components made of aluminium alloys, Welding International. 18(2004) 494-497
[8] G.Yang , X.LÜ, Y.Bai, H.Cui and Z.Jin, The effects of current density on the phase composition and microstructure properties of micro-arc oxidation coating, Journal of Alloys and Compounds. 345(2002)196–200.
Online since: October 2010
Authors: Ling Fei Ji, Yong Bao, Xiao Chuan Chen, Yi Jian Jiang
High Quality Fiber Laser Cutting of Electronic Alumina Ceramics
Xiaochuan Chen1, Lingfei Ji2, a, Yong Bao3 and Yijian Jiang4
1,2,3,4Institute of Laser Engineering, Beijing University of Technology,
Beijing 100124, P.
Molian: Journal of Manufacturing Science and Engineering Vol. 130 (2008), p. 031008-1-10 [3] C.
Liao: Proceedings of the SPIE - The International Society for Optical Engineering (2005) Vol. 5629 No. 1, p. 263-270 [6] Z.
Modest: Journal of Heat Transfer (1998) Vol. 120 No. 2, p. 322-327 [7] F.
Perez-Amor: Optics and Lasers in Engineering Vol. 42 (2004), p. 327-340 [8] J.
Molian: Journal of Manufacturing Science and Engineering Vol. 130 (2008), p. 031008-1-10 [3] C.
Liao: Proceedings of the SPIE - The International Society for Optical Engineering (2005) Vol. 5629 No. 1, p. 263-270 [6] Z.
Modest: Journal of Heat Transfer (1998) Vol. 120 No. 2, p. 322-327 [7] F.
Perez-Amor: Optics and Lasers in Engineering Vol. 42 (2004), p. 327-340 [8] J.
Online since: January 2012
Authors: Agus Geter Edy Sutjipto, Ammar A. Mustafa, Khalid A. S. Al-Khateeb, Ahmad Faris bin Ismail
Mustafa2,b, Ahmad Faris3,c,
Agus Sutjipto4,d
1 Kulliyah of Engineering, International Islamic University Malaysia, Kuala Lumpur, Malaysia
2 Kulliyah of Dentistry, International Islamic University Malaysia, Kuantan, Malaysia
3 Kulliyah of Engineering, International Islamic University Malaysia, Kuala Lumpur, Malaysia
4 Kulliyah of Engineering, International Islamic University Malaysia, Kuala Lumpur, Malaysia
aKhateeb222@yahoo.com, bdrammar71@gmail.com , cfaris@iium.edu.my, dagusgeter@gmail.com
Keywords: glass ceramic, porous alumina, dental implants, boron trioxide, powder sintering, anodization.
Since 1975 alumina ceramic has proven its bioinert properties.
Digest Journal of Nanomaterials and Biostructures Vol. 7, 3 (2010), p. 267-278 [2] Q.Z.
Ph.D. thesis, Faculty of engineering, International Islamic University Malaysia 2011 [6] R.W.
The biomedical engineering handbook.
Since 1975 alumina ceramic has proven its bioinert properties.
Digest Journal of Nanomaterials and Biostructures Vol. 7, 3 (2010), p. 267-278 [2] Q.Z.
Ph.D. thesis, Faculty of engineering, International Islamic University Malaysia 2011 [6] R.W.
The biomedical engineering handbook.
Online since: September 2020
Authors: Khairel Rafezi Ahmad, Shahrizam Saad, Sharifah Shahnaz Syed Bakar, Abdullah Chik
[2] S.K.S.Hossain., Rice husk/rice husk ash Asian alternative source of silica in ceramics: A review, Journal of Ceramics, (2018) p. 299-313
[3] A.J Siquiera., Preparation and characterization of ceramic composite derived from rice husk ash and polysiloxane, Ceramics international 35, (2009), p 213-220
M Omatola., Elemental analysis of rice husk ash using X – ray fluorescence technique, International Journal of Physical Sciences Vol. 4 (4), (2009), pp. 189-193
Journal of Alloy and Compound, (2015), 538 p.108-114
Journal of Material Science and Mechanical Engineering (JMSME) Volume 1, (2014), pp. 18-22
[3] A.J Siquiera., Preparation and characterization of ceramic composite derived from rice husk ash and polysiloxane, Ceramics international 35, (2009), p 213-220
M Omatola., Elemental analysis of rice husk ash using X – ray fluorescence technique, International Journal of Physical Sciences Vol. 4 (4), (2009), pp. 189-193
Journal of Alloy and Compound, (2015), 538 p.108-114
Journal of Material Science and Mechanical Engineering (JMSME) Volume 1, (2014), pp. 18-22
Online since: August 2016
Authors: Alexandra A.P. Mansur, Herman Sander Mansur, Nadia Sueli Vieira Capanema
Synthesis and Characterization of Ceramic Modified with Niobium for Biomedical Applications
Nadia S.
Mansur1,c 1Center of Nanoscience, Nanotechnology and Innovation – CeNano 2I, Department of Metallurgical and Materials Engineering, Federal University of Minas Gerais, Av.
Mansur: Journal of Materials Science Vol. 43 (2008), p 510
Teng: Ceramics International Vol. 39 (2013), p. 111
Berndt: Journal of the American Ceramic Society Vol. 81 (1998), p. 106
Mansur1,c 1Center of Nanoscience, Nanotechnology and Innovation – CeNano 2I, Department of Metallurgical and Materials Engineering, Federal University of Minas Gerais, Av.
Mansur: Journal of Materials Science Vol. 43 (2008), p 510
Teng: Ceramics International Vol. 39 (2013), p. 111
Berndt: Journal of the American Ceramic Society Vol. 81 (1998), p. 106
Online since: October 2013
Authors: Ján Duplák, Matúš Čuma, Miroslav Kormoš
The Standard ISO 3685 contains main properties and characteristics for three most important cutting materials those are used in engineering practice.
In engineering can be used for experiments a lot of different technological operations.
Fig. 6 Examples of used cutting plates References [1] A.Panda.et.all.,” Accompanying phenomena in the cutting zone machinability during turning of stainless steels.”, International Journal Machining and Machinability of Materials, INDERSCENCE Publisher, Switzerland.
Zajac: “Intelligently programming of holes machining”, In: Manufacturing Engineering, No.4, Vol.
In: International Journal of Surface Science and Engineering.
In engineering can be used for experiments a lot of different technological operations.
Fig. 6 Examples of used cutting plates References [1] A.Panda.et.all.,” Accompanying phenomena in the cutting zone machinability during turning of stainless steels.”, International Journal Machining and Machinability of Materials, INDERSCENCE Publisher, Switzerland.
Zajac: “Intelligently programming of holes machining”, In: Manufacturing Engineering, No.4, Vol.
In: International Journal of Surface Science and Engineering.
Online since: September 2016
Authors: Luboš Náhlík, Pavel Hutař, Kateřina Štegnerová, Zdeněk Majer, Raul Bermejo, Martin Pletz
One type of composites used in engineering applications are glass-ceramic composites e.g. filled by alumina particles.
Knesl, Key Engineering Materials Vol. 592-593 (2014), p. 445
Danzer: Engineering Fracture Mechanics Vol. 100 (2013), p. 108
Wiederhorn: Journal of the American Ceramic Society Vol. 50 (1967), p. 407
Danzer: Engineering Fracture Mechanics Vol. 100 (2013), p. 108
Knesl, Key Engineering Materials Vol. 592-593 (2014), p. 445
Danzer: Engineering Fracture Mechanics Vol. 100 (2013), p. 108
Wiederhorn: Journal of the American Ceramic Society Vol. 50 (1967), p. 407
Danzer: Engineering Fracture Mechanics Vol. 100 (2013), p. 108