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Online since: May 2013
Authors: Morteza Khosravi, Ghodratollah Roudini, Mehdi Asgharian
High Volume Fraction Aluminum /Alumina-Fused Silica Hybrid Particulate Metal Matrix Composite
Ghodratollah Roudini 1, a, Mehdi Asgharian 1, b and Morteza Khosravi 3, c
1Head of Department, Assistant Professor of Materials Science and Engineering,
University of Sistan and Baluchestan, Zahedan, Iran
2Department of Material Science and Engineering,
University of Sistan and Baluchestan, Zahedan, Iran
3Department of Material Science and Engineering,
University of Sistan and Baluchestan, Zahedan, Iran
a ghodratollah.roudini@eng.usb.ac.ir, b uni_1357@yahoo.com,c m90-khosravi@gmail.com
Keywords: Alumina, Aluminum, Compressive strength, Fused silica, Microstructure
Abstract.
These properties define the potential of these materials in engineering applications [1-8].
Mallikarjuna, Characterization of Mechanical Properties of Al 2024 Hybrid Metal Matrix Composites, International Journal of Materials Physics, Vol. 3, (2012), P. 61
Materials Science and Engineering A, Vol. 332, (2002), P. 311
Journal of Materials Science, Vol. 21, (1986), P. 1667.
These properties define the potential of these materials in engineering applications [1-8].
Mallikarjuna, Characterization of Mechanical Properties of Al 2024 Hybrid Metal Matrix Composites, International Journal of Materials Physics, Vol. 3, (2012), P. 61
Materials Science and Engineering A, Vol. 332, (2002), P. 311
Journal of Materials Science, Vol. 21, (1986), P. 1667.
Online since: June 2010
Authors: Shi Xing Zhang, Gang Yi Cai
What is important, it can
solve many complex engineering questions by using software.
In addition, error of stress intensity factor from engineering problem occurred in the course of model simplification.
References [1] Li Qingfeng: Fracture Mechanics and its Engineering Application (Harbin Engineering University Press, Harbin China 2007)
(In Chines) [3] Seung-Kee Koh: International Journal of Fatigue, Vol.22(2000), p. 717-726 [4] Chen Aijun, Xu Cheng, Hu Xiaoqiu: Journal of Nanjing University of Science and Technology, Vol.26(2002), p. 430-433.
Nuclear Engineering and design, Vol.174(1997), p. 91
In addition, error of stress intensity factor from engineering problem occurred in the course of model simplification.
References [1] Li Qingfeng: Fracture Mechanics and its Engineering Application (Harbin Engineering University Press, Harbin China 2007)
(In Chines) [3] Seung-Kee Koh: International Journal of Fatigue, Vol.22(2000), p. 717-726 [4] Chen Aijun, Xu Cheng, Hu Xiaoqiu: Journal of Nanjing University of Science and Technology, Vol.26(2002), p. 430-433.
Nuclear Engineering and design, Vol.174(1997), p. 91
Online since: October 2011
Authors: C. Isikli, N. Hasirci
Surface and Cell Affinity Properties
of Chitosan-Gelatin-Hydroxyapatite Composite Films
C.Isikli1 and N.Hasirci1,2,3,4
Middle East Technical University, Depts of 1Biomedical Engineering, 2Chemistry, 3Polymer
Science&Technology, Micro&Nanotechnology, Ankara, Turkey
4BIOMATEN, Center of Excellence in Biomaterials and Tissue Engineering, METU, Ankara, 06800, Turkey
nhasirci@metu.edu.tr
Keywords: Gelatin, chitosan, hydroxyapatite, composite, bone tissue engineering
Abstract: Addition of hydroxyapatite (HAp) into polymeric matrices and use them as supporting material for tissue engineering has gained attraction since hydroxyapatite (HAp) type crystals are the main inorganic components of the bone structure.
Therefore, inorganic ceramics like different forms of calcium phosphates and especially HAp are added into the polymer matrices to give them stability.
Although gelatin is a natural polyamide, its drawback in tissue engineering applications is its solubility in aqueous media.
International Wound Journal, 6, 107-115
Journal of Applied Polymer Science, 108, 438–446.
Therefore, inorganic ceramics like different forms of calcium phosphates and especially HAp are added into the polymer matrices to give them stability.
Although gelatin is a natural polyamide, its drawback in tissue engineering applications is its solubility in aqueous media.
International Wound Journal, 6, 107-115
Journal of Applied Polymer Science, 108, 438–446.
Online since: May 2012
Authors: Gigel Neagu, Alexandrina Mihai, Florin Ştefănescu, Iuliana Odagiu, Iuliana Stan
The presence of a ceramic, metallic or silica layer on the surface of silicon carbide particles prevents the development of this reaction.
Rohatgi in: Metals Handbook, Ninth Edition, Vol. 15, Casting, ASM International (1988), p. 840-854 [9].
Candan: Turkish Journal of Engineering & Environmental Sciences 26 (2002), p. 1-5 [13].
Ştefănescu: Materials Science and Engineering, A l35 (1991), p. 95-100 [15].
Keene: International Materials Review 38/4 (1993), p. 157-192 [19].
Rohatgi in: Metals Handbook, Ninth Edition, Vol. 15, Casting, ASM International (1988), p. 840-854 [9].
Candan: Turkish Journal of Engineering & Environmental Sciences 26 (2002), p. 1-5 [13].
Ştefănescu: Materials Science and Engineering, A l35 (1991), p. 95-100 [15].
Keene: International Materials Review 38/4 (1993), p. 157-192 [19].
Hybrid Biological Fiber-Reinforced Resin-Based Friction Materials Friction and Wear Performance Test
Online since: November 2013
Authors: Jin Tong, Yun Hai Ma, Sheng Long Shen, Li Guo, Sheng Sheng Ma
China
2 The School of Biological and Agricultural Engineering, Jilin University (Nanling Campus), 5988 Renmin Street, Changchun 130022, P.
Optimization of ceramic friction materials.
Tribology International. 2007, 40(1): 37–48
Journal of Materials Science. 2004, 39(2): 641–643
Mechanical Engineering Division. 2004, 85(1): 13–16
Optimization of ceramic friction materials.
Tribology International. 2007, 40(1): 37–48
Journal of Materials Science. 2004, 39(2): 641–643
Mechanical Engineering Division. 2004, 85(1): 13–16
Online since: August 2013
Authors: Zhe Cheng Wu, Ze Yuan Han, Yue Ming Lu, Ning Zhang
Research on Design of Intelligent Building Internal Structure based on Building Materials
Zeyuan Han1,a, Ning Zhang1,b* , Zhecheng Wu1,c , Yueming Lu2,d
1Beijing Key Laboratory of Information Service Engineering, Beijing Union University
Beijing, 100101, China
2Key Laboratory of Trustworthy Distributed Computing and Service, Ministry of Education
Beijing University of Posts and Telecommunications, Beijing, 100876, China
atschanzeyuan@163.com, bzn2004@163.com, c260427796@qq.com, dymlu@bupt.edu.cn
* Corresponding Author
Keywords: Building materials, intelligent building, internal structure
Abstract: New building materials cover a very wide area, such as insulation materials, high-strength materials, breathing material.
Structural materials, including wood, bamboo, stone, cement, concrete, metal, brick, ceramics, glass, engineering plastics, composite materials; decorative materials, including a variety of coatings, paints, coatings, veneer, colored tiles, with special effects glass, etc.; special materials used for waterproofing, moisture-proof, anti-corrosion, fire, fire-retardant, sound insulation, thermal insulation, thermal insulation, sealing.
Kannan, An Adaptive Fault Tolerant Routing Protocol with Error Reporting Scheme for Wireless Sensor Networks, European Journal of Scientific Research ISSN 1450-216X Vol.60 No.1, (2011), p. 19 [3] V.
Hemalatham, A Perspective Analysis of routi ng protocols in wireless sensor network, (IJCSE) International Journal on Computer Science and Engineering.
IEEE Sensors Journal, 10(6), (2010),p. 1029
Structural materials, including wood, bamboo, stone, cement, concrete, metal, brick, ceramics, glass, engineering plastics, composite materials; decorative materials, including a variety of coatings, paints, coatings, veneer, colored tiles, with special effects glass, etc.; special materials used for waterproofing, moisture-proof, anti-corrosion, fire, fire-retardant, sound insulation, thermal insulation, thermal insulation, sealing.
Kannan, An Adaptive Fault Tolerant Routing Protocol with Error Reporting Scheme for Wireless Sensor Networks, European Journal of Scientific Research ISSN 1450-216X Vol.60 No.1, (2011), p. 19 [3] V.
Hemalatham, A Perspective Analysis of routi ng protocols in wireless sensor network, (IJCSE) International Journal on Computer Science and Engineering.
IEEE Sensors Journal, 10(6), (2010),p. 1029
Online since: October 2014
Authors: Ling Liu, Li Yong Tang, Bing Bing Shen, Chang Zhou, Qian Tin Chen
Research and Development of Micro-Nano Sized Tungstate on Morphology Control
LIU Ling a, TANG Liyongb, SHEN Bingbingc, ZHOU Chang, CHEN Qiantin
School of Materials Science and Engineering, Jiangsu University, 301 Xuefu Road, Zhenjiang, Jiangsu, China
anum-one@163.com, 18796080761,bliyongtang@ujs.edu.cn,cshenbbin@163.com
Keywords: tungstate materials, synthesize, shape control, properties
Abstract: The synthetic methods with tailored morphology of micro-nano sized tungstate materials and with rare earths dopped were summarized, as well as the effect factors of morphology control.
Kang, Potential red phosphor for UV-white LED device, Journal of Luminescence, 122 (2007) 964-966
Sole, et al., Ln3+: KLu (WO4)2/KLu (WO4)2 epitaxial layers:Crystal growth and physical characterization, Materials Science and Engineering, 146 (2008) 59–65
[20]Xuyun L, Zuwei S, Baohan Qu, Shape-controlled electrochemical synthesis of SrWO4 crystallites and their optical properties, Ceramics International, 05 (2013) 01-04
[24]Zhang Yuqin, TanGuoqiang, Bo Haiyang, Xia Ao, Ren Huijun, Effect of pH value on synthesis of Bi2WO6 powders by microwave hydrothermal method and photocatalytic properties, Journal of The Chinese Ceramic Society, 39 (2011) 481-485
Kang, Potential red phosphor for UV-white LED device, Journal of Luminescence, 122 (2007) 964-966
Sole, et al., Ln3+: KLu (WO4)2/KLu (WO4)2 epitaxial layers:Crystal growth and physical characterization, Materials Science and Engineering, 146 (2008) 59–65
[20]Xuyun L, Zuwei S, Baohan Qu, Shape-controlled electrochemical synthesis of SrWO4 crystallites and their optical properties, Ceramics International, 05 (2013) 01-04
[24]Zhang Yuqin, TanGuoqiang, Bo Haiyang, Xia Ao, Ren Huijun, Effect of pH value on synthesis of Bi2WO6 powders by microwave hydrothermal method and photocatalytic properties, Journal of The Chinese Ceramic Society, 39 (2011) 481-485
Online since: October 2010
Authors: Galina Xanthopoulou
Dinka: International Journal of Self-Propagating High-Temperature Synthesis, Vol. 16, 1 (2007) p. 23.
9.
Merzhanov: International Journal of Self-Propagating High-Temperature Synthesis, Vol.18 (2009), p.38. 13.
G Xanthopoulou, Chemical Engineering and Technology, 24,10(2001) p. 1025. 25.
E.Chinarro, J.Jurado: Key Engineering Materials: Vol. 206-213 (2002) p. 1227. 33.
E.N.Grigoryan International Journal of Self-Propagating High-temperature Synthesis, v.6, n.3, 1997. 40.
Merzhanov: International Journal of Self-Propagating High-Temperature Synthesis, Vol.18 (2009), p.38. 13.
G Xanthopoulou, Chemical Engineering and Technology, 24,10(2001) p. 1025. 25.
E.Chinarro, J.Jurado: Key Engineering Materials: Vol. 206-213 (2002) p. 1227. 33.
E.N.Grigoryan International Journal of Self-Propagating High-temperature Synthesis, v.6, n.3, 1997. 40.
Online since: November 2003
Authors: Eiji Watanabe, Mitsuharu Fukaya, Hiroshi Taoda
Journal Citation (to be inserted by the publisher)
Copyright by Trans Tech Publications
Organism Resolution Ability of Titania Photocatalyst in Water
Eiji Watanabe, M.
Fukaya et al., Proceedings of the 3rd International Conference on Ecomaterials (1997), p. 10
[7] Photocatalyst Product Engineering Congress, Photocatalyst product Engineering Congress regulations of a society, various regulations, and examination methods, Photocatalyst Product Engineering Congress, Nagoya (2001), p. 42
Taoda et al., Abstracts of the Second International Symposium on NEW TRENDS IN PHOTOELECTROCHEMISTRY (1994), p. 76
Taoda et al., Proceeding of the Fifth International Symposium on New Glass (1995), p. 143.
Fukaya et al., Proceedings of the 3rd International Conference on Ecomaterials (1997), p. 10
[7] Photocatalyst Product Engineering Congress, Photocatalyst product Engineering Congress regulations of a society, various regulations, and examination methods, Photocatalyst Product Engineering Congress, Nagoya (2001), p. 42
Taoda et al., Abstracts of the Second International Symposium on NEW TRENDS IN PHOTOELECTROCHEMISTRY (1994), p. 76
Taoda et al., Proceeding of the Fifth International Symposium on New Glass (1995), p. 143.
Online since: October 2010
Authors: Xiu Xu Zhao
WC-Co Tool Failure Analysis and the Grinding Effect Study
Xiuxu ZHAO
School of Mechanical and Electrical Engineering, Wuhan University of Technology,
Wuhan, Hubei, 430070, China
zhaoxiuxu@whut.edu.cn
Keywords: WC-Co Carbide, Grinding, Material microstructure analysis, XRD test, Residual stress
comparison.
Vancoille, Influence of microstructure on ultraprecision grinding of cemented carbides, International Journal of Machine Tools and Manufacture, Volume 44, Issue 5, April 2004, Pages pp533-543 [4] B.
Llanes, Fracture and fatigue behavior of electrical-discharge machined cemented carbides, International Journal of Refractory Metals and Hard Materials , Volume 24, Issues 1-2 , January-March 2006, Pages pp162-167 [5] ZHAO Xiuxu , MEYER Kevin , HE Rui, YU Cindy, NI Jun ,Tool Failure Analysis in High Speed Milling of Titanium Alloys, Proceeding of the 1st International Conference of Digital Manufacturing, Wuhan, China, Oct.2006, pp137-142 [6] D.
MECHOLSKY, Fracture analysis of cobalt-bonded tungsten carbide composites, JOURNAL OF MATERIALS SCIENCE 25 (1990) pp4949-4956 [7] F.
RICE, in "Processing of Crystalline Ceramics", edited by H.H.
Vancoille, Influence of microstructure on ultraprecision grinding of cemented carbides, International Journal of Machine Tools and Manufacture, Volume 44, Issue 5, April 2004, Pages pp533-543 [4] B.
Llanes, Fracture and fatigue behavior of electrical-discharge machined cemented carbides, International Journal of Refractory Metals and Hard Materials , Volume 24, Issues 1-2 , January-March 2006, Pages pp162-167 [5] ZHAO Xiuxu , MEYER Kevin , HE Rui, YU Cindy, NI Jun ,Tool Failure Analysis in High Speed Milling of Titanium Alloys, Proceeding of the 1st International Conference of Digital Manufacturing, Wuhan, China, Oct.2006, pp137-142 [6] D.
MECHOLSKY, Fracture analysis of cobalt-bonded tungsten carbide composites, JOURNAL OF MATERIALS SCIENCE 25 (1990) pp4949-4956 [7] F.
RICE, in "Processing of Crystalline Ceramics", edited by H.H.