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Online since: December 2013
Authors: Abdul Rahman Mohd Faizal, Muhammad Syafiq Jainal, Suffiyana Akhbar, Siti Norsyarahah Che Kamarludin
In these hybrid materials, it is possible to expect very interesting characteristics that are not found in the organic polymer or the inorganic material independently.
Journal of Materials, 2(3):992-1057 (2009) [4] Y.Wang, H.Shen, LI Gu, M.
Polymer-layered silicate nanocomposites: preparation, properties and uses of a new class of materials.
Materials Science Engineering:R:Reports, 28 (1-2) (2000) 1–63.(2000) [7] Ali, Ilias and Al-Zahrani.
Material Science Engineering A, 332(1-2):301–310.(2002) [11] F.Omar, K.B.
Journal of Materials, 2(3):992-1057 (2009) [4] Y.Wang, H.Shen, LI Gu, M.
Polymer-layered silicate nanocomposites: preparation, properties and uses of a new class of materials.
Materials Science Engineering:R:Reports, 28 (1-2) (2000) 1–63.(2000) [7] Ali, Ilias and Al-Zahrani.
Material Science Engineering A, 332(1-2):301–310.(2002) [11] F.Omar, K.B.
Online since: August 2013
Authors: Ai Guo Wang, Wen Wang, Chen Cheng Hu, Zhong Jun He, Qin Li
Materials and Methods
Study Area.
The content of calcium and magnesium is higher in two types of soil parent materials.
Based on topographic map of Baiyao base and combining soil parent materials, region geography, vegetation, land use method, 214 sampling points were chosen relatively uniform with guarantee of density (Fig.1).
References [1] Xu Xianjun, Chen Mingchang, Zhang Qiang, et al: Journal of Shanxi Agricultural Sciences Vol.32(1) (2004) , p.33-38, in Chinese
[3] Wang Dongyan, Li Yuefen,Shang Yuan: Journal of Jilin University(Earth Science Edition)Vol. 41(1)(2011), p215-221, in Chinese
The content of calcium and magnesium is higher in two types of soil parent materials.
Based on topographic map of Baiyao base and combining soil parent materials, region geography, vegetation, land use method, 214 sampling points were chosen relatively uniform with guarantee of density (Fig.1).
References [1] Xu Xianjun, Chen Mingchang, Zhang Qiang, et al: Journal of Shanxi Agricultural Sciences Vol.32(1) (2004) , p.33-38, in Chinese
[3] Wang Dongyan, Li Yuefen,Shang Yuan: Journal of Jilin University(Earth Science Edition)Vol. 41(1)(2011), p215-221, in Chinese
Online since: November 2010
Authors: Dyi Cheng Chen, Ming Wei Guo, Bao Yan Lai, Ci Syong You
Park: Journal of Materials Processing Technology Vol. 187-188
(2007), p. 747
Sun: Journal of Materials Processing Technology Vol. 177 (2006), p. 634
Aljawi: Journal of Materials Processing Technology Vol. 142 (2003), p. 213
Ward: Journal of Materials Processing Technology Vol. 125-126 (2002), p. 619
Takasu: Journal of Materials Processing Technology Vol. 125-126 (2002), p. 613
Sun: Journal of Materials Processing Technology Vol. 177 (2006), p. 634
Aljawi: Journal of Materials Processing Technology Vol. 142 (2003), p. 213
Ward: Journal of Materials Processing Technology Vol. 125-126 (2002), p. 619
Takasu: Journal of Materials Processing Technology Vol. 125-126 (2002), p. 613
Online since: November 2013
Authors: Corneliu Munteanu, Andreea Carmen Bărbînţă, Carmen Iulia Crimu, Kamel Earar, Lucia Anişoara Drăgan
Banerjee, Fundamentals of medical implant materials, in: R.
Narayan (Ed.), Materials for Medical Devices, ASM Handbook, USA, 2012
A Review, Progress in Materials Science. 54 (2009) 397-425
Gepreel, M.Niinomi, Biocompatibility of Ti-alloys for long-term implantation, Journal of the Mechanical Behavior of Biomedical Materials. 20 (2013) 407-415
Miculescu, Experimental researches on biomaterial-tissue interface interactions, Journal of Optoelectronics and Advanced Materials, 9(11), (2007), 3303 – 3306
Narayan (Ed.), Materials for Medical Devices, ASM Handbook, USA, 2012
A Review, Progress in Materials Science. 54 (2009) 397-425
Gepreel, M.Niinomi, Biocompatibility of Ti-alloys for long-term implantation, Journal of the Mechanical Behavior of Biomedical Materials. 20 (2013) 407-415
Miculescu, Experimental researches on biomaterial-tissue interface interactions, Journal of Optoelectronics and Advanced Materials, 9(11), (2007), 3303 – 3306
Online since: April 2014
Authors: Xue Ren Wu, Xin Yue Huang, Li Zhang, Xu Dong Li
Fractographical Investigation on High-cycle Fatigue Behavior
of Direct Aging GH4169 Superalloy
Li Zhanga*, Xueren Wub, Xinyue Huangc and Xudong Lid
Beijing Key Laboratory of Aeronautical Materials Testing and Evaluation, Laboratory of Science and Technology on Advanced High Temperature Structure Materials, Beijing Institute of Aeronautical Materials, Beijing 100095, China
azli335@163.com, bxrwu621@163.com, cxinyuehuang@yahoo.com.hk, dlxd32010128@126.com
Keywords: Superalloy, High cycle fatigue, Fractography, Crack initiation, Inclusions, Microstructure.
[9] In: China aeronautical materials handbook(4). (2010).
Suresh, in: Fatigue of Materials.
Elsevier Science Ltd, Oxford (2000)
Materials Science and Engineering A. 270 (1999) p. 308-322
[9] In: China aeronautical materials handbook(4). (2010).
Suresh, in: Fatigue of Materials.
Elsevier Science Ltd, Oxford (2000)
Materials Science and Engineering A. 270 (1999) p. 308-322
Online since: August 2011
Authors: Lei Chen
With the development of the computer science and FEM theory, numerical simulation of springback is performed.
The factors affecting stress field are materials model, constitute equation, yield criterion, element type, element size and contact algorithm [4].
The material parameters are shown in Table1.
Acknowledgement The financial support for this work is from Natural Science Foundation of Jiangxi Bluesky University (No.
Vol. 44 (2002), p.103 [4] M.Samuel: Journal of Materials Processing Technology Vol. 105 (2000), p. 382 [5] M.Phadke, Quality engineering using robust design, Prentice Hall, London, 1989 [6] L.
The factors affecting stress field are materials model, constitute equation, yield criterion, element type, element size and contact algorithm [4].
The material parameters are shown in Table1.
Acknowledgement The financial support for this work is from Natural Science Foundation of Jiangxi Bluesky University (No.
Vol. 44 (2002), p.103 [4] M.Samuel: Journal of Materials Processing Technology Vol. 105 (2000), p. 382 [5] M.Phadke, Quality engineering using robust design, Prentice Hall, London, 1989 [6] L.
Online since: February 2014
Authors: Soo Yeol Lee, E Wen Huang, Chung Kai Chang, Wen Jay Lee, Jun Wei Qiao, Chung Hao Chen
Materials
The carbon-carbon (CC) composite is composed of the fibers and the matrix.
Kalyagina, Carbon–Carbon Composite Materials.
Inorganic Materials 1 (2004) 33
Modelling and Simulation in Materials Science and Engineering 11 (2003) 173-177
Nature Materials 2 (2003) 333-337.
Kalyagina, Carbon–Carbon Composite Materials.
Inorganic Materials 1 (2004) 33
Modelling and Simulation in Materials Science and Engineering 11 (2003) 173-177
Nature Materials 2 (2003) 333-337.
Online since: July 2019
Authors: Jaroslav Sojka, Kateřina Konečná, Taťána Radkovská, Petra Váňová
LO1203 "Regional Materials Science and Technology Centre - Feasibility Program" funded by Ministry of Education, Youth and Sports of the Czech Republic.
Current Opinion in Solid State and Material Science. 8 (2004) 285-303
Materials Science and Engineering: A. 438 (2006) 300-305
Materials Science and Engineering A. 371 (2004) 16-23
Materials Science and Engineering: A 715 (2018) 370-378.
Current Opinion in Solid State and Material Science. 8 (2004) 285-303
Materials Science and Engineering: A. 438 (2006) 300-305
Materials Science and Engineering A. 371 (2004) 16-23
Materials Science and Engineering: A 715 (2018) 370-378.
Online since: August 2014
Authors: Dun Qiu Wang, Mei Na Liang, Yan Min Qin
The raw materials of activated carbons are generally wood, coal, charcoal, oil, etc.
The excessive development and unreasonable use of human beings make the storage capacity of coal and oil less and less, so it is important that looking for clean and easy to get raw materials to replace.
Such structural components of sugarcane bagasse is used to synthesis of new materials [7].Sugarcane bagasse is known as its large storage capacity.
Chinese Agricultural Science Bulletin, Vol. 26(2010), p.370.
Journal of Food Engineering,Vol. 96(2010), p.14
The excessive development and unreasonable use of human beings make the storage capacity of coal and oil less and less, so it is important that looking for clean and easy to get raw materials to replace.
Such structural components of sugarcane bagasse is used to synthesis of new materials [7].Sugarcane bagasse is known as its large storage capacity.
Chinese Agricultural Science Bulletin, Vol. 26(2010), p.370.
Journal of Food Engineering,Vol. 96(2010), p.14
Online since: December 2010
Authors: Ji Yuan Li, Ya Jing Li, Cai Lou Zhou, Chang Ping Wang, Shan Hui Hong
Ozcan, et al.: Journal of Hazardous Materials, 2005, 125(1-3):252
[3] S.
Qing, et al.: Journal of the Chinese Ceramic Society, 2006, 34(10): 1208 [4] Eyup Sabah: Journal of Colloid and Interface Science, 2007, 310(1):1 [5] R.
Dogan: Microporous and mesoporous materials, 2007, 101(3): 3 88 [7] S.
Ozcan, et al.: Journal of Hazardous Materials, 2005, 125(1-3):252 [10] Y.
Alkan.: Microporous and Mesoporous Materials, 2006, 96(1-3): 419 [11] M.
Qing, et al.: Journal of the Chinese Ceramic Society, 2006, 34(10): 1208 [4] Eyup Sabah: Journal of Colloid and Interface Science, 2007, 310(1):1 [5] R.
Dogan: Microporous and mesoporous materials, 2007, 101(3): 3 88 [7] S.
Ozcan, et al.: Journal of Hazardous Materials, 2005, 125(1-3):252 [10] Y.
Alkan.: Microporous and Mesoporous Materials, 2006, 96(1-3): 419 [11] M.