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Online since: May 2011
Authors: Lai Chen, Yong Sheng Hua, Jia Bao Zhang, Jian Feng Pan, Chun Jie Zhou, Mu Su Ren, Jin Liang Sun, Meng Jiao Gao
Conclusions
(1) ZrC-SiC composite ceramics introduced into C/C composite improves the anti-ablation and antioxidant properties of the C/C composite.
Walker: Journal of the European Ceramic Society Vol. 30 (2010), p.2357 [4] Yongdong Xu, Yani Zhang, Laifei Cheng, Litong Zhang, Jianjun Lou, Junzhan Zhang: Ceramics International Vol.33(2007), p. 439 [5] K.
Kosmac: Journal of the European Ceramic Society Vol. 27(2007), p. 1211 [6] Chunman Zheng, Xiaodong Li, Yuxi Yu, Feng Cao: Polymeric Materials Science and Engineering (in Chinese), Vol. 21(2005), p. 6 [7] Qingsong Ma, Zhaohui Chen, Wenwei Zheng, Haifeng Hu: Ceramics International Vol. 31(2005), p. 305 [8] Xueqi Fan, Lai Chen, Shi Wu, Fengjun Zhang, Jiabao Zhang, Musu Ren, Jinliang Sun: Materials Science and Engineering, (in Chinese), Vol. 24 (2006), p. 920 [9] A.
Wielage: Carbon, Vol. 44(2006), p. 1994 [10] Guiming Song, Ying Wu , Houshan Bai , Yujin Wang, Yu Zhou, Tingquan Lei: Chinese Journal of Nonferrous Metals (in Chinese), Vol.10 (2000), p. 313 [11] J.
Penvecost: New York: Reinhold Publishing Corp, 1963:10 [12] Shi Wu , Lai Chen, Lin Qian, Jiabao Zhang,Jianfeng Pan, Chunjie Zhou, Musu Ren, Jinliang Sun: Journal of Chinese Ceramic society (in Chinese), Vol.36 (2008): p.973 [13] Guiming Song, Yujin Wang, Yu Zhou, Yingkui Guo, Guangwu Wen: Rare Metal Materials and Engineering, (in Chinese), Vol. 30(2001), p. 101
Walker: Journal of the European Ceramic Society Vol. 30 (2010), p.2357 [4] Yongdong Xu, Yani Zhang, Laifei Cheng, Litong Zhang, Jianjun Lou, Junzhan Zhang: Ceramics International Vol.33(2007), p. 439 [5] K.
Kosmac: Journal of the European Ceramic Society Vol. 27(2007), p. 1211 [6] Chunman Zheng, Xiaodong Li, Yuxi Yu, Feng Cao: Polymeric Materials Science and Engineering (in Chinese), Vol. 21(2005), p. 6 [7] Qingsong Ma, Zhaohui Chen, Wenwei Zheng, Haifeng Hu: Ceramics International Vol. 31(2005), p. 305 [8] Xueqi Fan, Lai Chen, Shi Wu, Fengjun Zhang, Jiabao Zhang, Musu Ren, Jinliang Sun: Materials Science and Engineering, (in Chinese), Vol. 24 (2006), p. 920 [9] A.
Wielage: Carbon, Vol. 44(2006), p. 1994 [10] Guiming Song, Ying Wu , Houshan Bai , Yujin Wang, Yu Zhou, Tingquan Lei: Chinese Journal of Nonferrous Metals (in Chinese), Vol.10 (2000), p. 313 [11] J.
Penvecost: New York: Reinhold Publishing Corp, 1963:10 [12] Shi Wu , Lai Chen, Lin Qian, Jiabao Zhang,Jianfeng Pan, Chunjie Zhou, Musu Ren, Jinliang Sun: Journal of Chinese Ceramic society (in Chinese), Vol.36 (2008): p.973 [13] Guiming Song, Yujin Wang, Yu Zhou, Yingkui Guo, Guangwu Wen: Rare Metal Materials and Engineering, (in Chinese), Vol. 30(2001), p. 101
Online since: February 2022
Authors: Ola Saleh Mahdi, Israa K. Sabree
Studying the Effect of Hydroxyapatite Coating on the Properties
of Alumina
Ola Saleh Mahdi1,a*, Israa K.Sabree2,b
1,2University of Babylon, College of Materials Engineering, Department of Ceramic Engineering
and Building Materials, Babylon, Iraq
a*mat.ola.saleh@uobabylon.edu.iq, bmat.asraa.kahtan@uobabylon.ed.iq
Keywords: Degradation, Al2O3, Biomaterials, Hydroxyapatite, Coating.
Bhuvaneswari, M.Rajkumar, Natural antimicrobial and bioactive compounds, Journal of Mechanical Engineering andTechnology,9 (2020) 121-133
[3] Ola Saleh Mahdi, The Biological Characterization of Mullite Production from Coal Ash, International, Journal of Mechanical Engineering and Technology,2018, 605–613
[4] Elham Abd Al-Majeed, Ola Saleh Mahdi, Preparation and Characterization Bioactive Properties of Bioceramic Composite (Zinc Oxide/Hydroxyapatite), Journal of Engineering and Applied Sciences14 (2019) 9504-9508
[5] Silvio José Gobbi, Gustavo Reinke, Vagner João Gobbi, Biomaterial: Concepts and Basics Properties, European International Journal of Science and Technology, 2020, pp.21-33
Bhuvaneswari, M.Rajkumar, Natural antimicrobial and bioactive compounds, Journal of Mechanical Engineering andTechnology,9 (2020) 121-133
[3] Ola Saleh Mahdi, The Biological Characterization of Mullite Production from Coal Ash, International, Journal of Mechanical Engineering and Technology,2018, 605–613
[4] Elham Abd Al-Majeed, Ola Saleh Mahdi, Preparation and Characterization Bioactive Properties of Bioceramic Composite (Zinc Oxide/Hydroxyapatite), Journal of Engineering and Applied Sciences14 (2019) 9504-9508
[5] Silvio José Gobbi, Gustavo Reinke, Vagner João Gobbi, Biomaterial: Concepts and Basics Properties, European International Journal of Science and Technology, 2020, pp.21-33
Online since: May 2019
Authors: Prakorb Chartpuk, Chaiwat Chaimahapuk
Analysis of Stress Distribution for Powder Compression Molding by Finite Element Method
Prakorb Chartpuka* and Chaiwat Chaimahapukb
1381 Department of mechanical engineering, Faculty of engineering, Rajamangala University of Technology Phra Nakhon, Bangsue, Bangkok 10800, Thailand
aprakorb.c@rmutp.ac.th, bchaiwat-c@rmutp.ac.th
Keywords: stress distribution, powder compression mold, finite element method
Abstract.
To produce bulletproof ceramic armor, ceramics forming process is considered very efficient [2], [3].
A, Physicochemical and Engineering Aspects, vol. 137, pp. 103–116, 1998
Prakorb, “The comparison of model compaction method to make uniformly dense ceramic bodies,” in Proceeding of 7th International Forum on Strategic Technology (IFOST), Russia, 2012, pp. 1–5
Surin, “Design and Making of Pressing Mold for Ceramic Armor Plate,” in Proceedings of the 2nd RMUTP Conference of Engineering and Technology, Bangkok, Thailand, 19 May 2017, pp. 1-4
To produce bulletproof ceramic armor, ceramics forming process is considered very efficient [2], [3].
A, Physicochemical and Engineering Aspects, vol. 137, pp. 103–116, 1998
Prakorb, “The comparison of model compaction method to make uniformly dense ceramic bodies,” in Proceeding of 7th International Forum on Strategic Technology (IFOST), Russia, 2012, pp. 1–5
Surin, “Design and Making of Pressing Mold for Ceramic Armor Plate,” in Proceedings of the 2nd RMUTP Conference of Engineering and Technology, Bangkok, Thailand, 19 May 2017, pp. 1-4
Online since: June 2014
Authors: Jie Liu
SLC Technologies for Ferroalloy Part Surface Modification
Jie liu
School of Mechanical and Electrical Engineering, Shenzhen Polytechnic
Shenzhen, Guangdong, 518055, China
liujie@szpt.edu.cn
Keywords: SLC, Surface Modification
Abstract.
Journal of Materials Processing Techonology, 2001, (109): 154-160 [3] Jeng-Ywan Jeng, et al.
Journal of Materials Processing Technology 110 (2001):98-103 [4] Gahr K H Zum, Schneider J.
Surface modification of ceramics for improved tribological properties.
Ceramics International, 2000, (26): 363-370 [5] Guojian Xu, et al.
Journal of Materials Processing Techonology, 2001, (109): 154-160 [3] Jeng-Ywan Jeng, et al.
Journal of Materials Processing Technology 110 (2001):98-103 [4] Gahr K H Zum, Schneider J.
Surface modification of ceramics for improved tribological properties.
Ceramics International, 2000, (26): 363-370 [5] Guojian Xu, et al.
Online since: September 2017
Authors: Meinhard Kuna, Martin Abendroth, H. Zielke
In order to determine the fracture toughness of the ceramic material, a chevron-notched beam method (CNB) is applied.
Ceramics International, 38(6), 5165-5173
Ceramics: mechanical properties, failure behaviour, materials selection (Vol. 36).
International Journal of Fracture, 16(3), R137-R141
Engineering Fracture Mechanics, 7(3) 593-604 [5] H.
Ceramics International, 38(6), 5165-5173
Ceramics: mechanical properties, failure behaviour, materials selection (Vol. 36).
International Journal of Fracture, 16(3), R137-R141
Engineering Fracture Mechanics, 7(3) 593-604 [5] H.
Online since: January 2015
Authors: Yue Wu Wang, Jia Ling Yang, Da Fang Wu, Ying Pu, Lan Shang
The diameter of the ceramic pole was 4 mm.
Huang: International Journal of Mechanics and Materials in Design, Vol.6 (2010), p. 331
Wang: Journal of Experimental Mechanics.
Sun: Applied Thermal Engineering, Vol. 60(2013), p. 379
Wang: International Journal of Thermophysics, Vol.35(2014): p.1557
Huang: International Journal of Mechanics and Materials in Design, Vol.6 (2010), p. 331
Wang: Journal of Experimental Mechanics.
Sun: Applied Thermal Engineering, Vol. 60(2013), p. 379
Wang: International Journal of Thermophysics, Vol.35(2014): p.1557
Online since: January 2010
Authors: M.J.C. Rosales, N.G. Alcantara, Jorge Santos, R. Zettler
Rather
than diminishing in size, the ceramic backing actually promotes significant growth of the SZ.
Rudolf Zettler, and for the Material Engineering Department and Material Characterization and Development Centre of Federal University of São Carlos.
"Friction stir welding and processing", Materials Science and Engineering Vol.
"Three-dimensional modeling of the friction stir-welding process", International Journal of Machine Tools & Manufacture Vol. 42 (2002), p. 1549-1557 [4] Russell, M.
"Quality assessment of friction stir welding joints via an analytical thermal model, iSTIR", Materials Science and Engineering Vol.
Rudolf Zettler, and for the Material Engineering Department and Material Characterization and Development Centre of Federal University of São Carlos.
"Friction stir welding and processing", Materials Science and Engineering Vol.
"Three-dimensional modeling of the friction stir-welding process", International Journal of Machine Tools & Manufacture Vol. 42 (2002), p. 1549-1557 [4] Russell, M.
"Quality assessment of friction stir welding joints via an analytical thermal model, iSTIR", Materials Science and Engineering Vol.
Online since: May 2004
Authors: Aydin Dogan, Erman Uzgur, S. Koparal, F. Bayrakci
Dogan
1
1
Anadolu University, Department of Materials Science and Engineering, Eskişehir/Turkey
2
Anadolu University, Department of Environmental Engineering, Eskişehir/Turkey
Keywords: Antibacterial materials, ecoli, silver cation, calcium phosphate
Abstract.
Particle size of the ceramic powder measured around 200 nm.
XRD result of synthesized antibacterial ceramic powder.
Adelberg: Medical Microbiology (Prentice-Hall International Inc. 1991) [2] L.L.
Cui: Journal of Material Science: Materials in Medicine Vol. 9 (1998), p. 129
Particle size of the ceramic powder measured around 200 nm.
XRD result of synthesized antibacterial ceramic powder.
Adelberg: Medical Microbiology (Prentice-Hall International Inc. 1991) [2] L.L.
Cui: Journal of Material Science: Materials in Medicine Vol. 9 (1998), p. 129
Online since: January 2016
Authors: Gopal S. Upadhyaya
The very first liquid phase sintered engineering product was bronze bearings followed by steels containing copper.
Member companies encourage their engineers to attend the International Committee .
Powder Metallurgy International : Verlag Schmid Publication of Freiburg, Germany launched the bimonthly journal ‘Powder Metallurgy International’.
The special feature of this Journal was equal emphasis on metallic and ceramic based materials and their composites.
Consulting and technical audits/ engineering assessment of sintering departments of existing PM plants is another activity of the organisation..
Member companies encourage their engineers to attend the International Committee .
Powder Metallurgy International : Verlag Schmid Publication of Freiburg, Germany launched the bimonthly journal ‘Powder Metallurgy International’.
The special feature of this Journal was equal emphasis on metallic and ceramic based materials and their composites.
Consulting and technical audits/ engineering assessment of sintering departments of existing PM plants is another activity of the organisation..
Online since: December 2014
Authors: Xiao Ling Liao, Wen Feng Xu, Cheng Li Liao, Fu Hang Xiong, Kui Li
Aghaei: Ceramics International, Vol. 40 (2014) No.3, p.4697
Lu: Ceramics International, Vol. 39 (2013) No.1, p.159
Karasu: Ceramics International, Vol. 38 (2012) No.5, p.3701
Wu: Materials Science and Engineering, Vol. 133 (2006) No.1-3, p.200
Kareiva: Ceramics International, Vol. 38 (2012) No.7, p.5915
Lu: Ceramics International, Vol. 39 (2013) No.1, p.159
Karasu: Ceramics International, Vol. 38 (2012) No.5, p.3701
Wu: Materials Science and Engineering, Vol. 133 (2006) No.1-3, p.200
Kareiva: Ceramics International, Vol. 38 (2012) No.7, p.5915