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Online since: June 2008
Authors: Min Wang, Chun Ling Au, Pik Ki Lai, Lai Yee Leung, Boon Heng Chua, Ya Liu
The bioactive particles in these composites are normally hard
(relative to matrix materials) and brittle bioceramics such as hydroxyapatite (HA), tricalcium
phosphate (TCP), Bioglass, etc.
Introduction Most human body tissues are natural composite materials.
The bioactive particles in these composites are normally hard (relative to matrix materials) and brittle bioceramics such as HA, tricalcium phosphate (TCP), Bioglass, etc.
References [1] W.Bonfield, M.D.Grynpas, A.E.Tully, J.Bowman, J.Abram: Biomaterials, Vol. 1 (1981), p. 185 [2] R.E.Swain, M.Wang, B.Beale, W.Bonfield: Biomedical Engineering: Applications, Basis & Communications, Vol.11 (1999), p. 315 [3] W.Bonfield, M.Wang, K.E.Tanner: Acta Materialia, Vol.46 (1998), p. 2509 [4] M.Wang: Biomaterials, Vol.24 (2003), p. 2133 [5] Symposium on Developing New Biomaterials: the Composite Approach, in the 7 th World Biomaterials Congress, Sydney, Australia, May 17-21, 2004 [6] Symposium on Composites in Medicine, in the 5 th Asian-Australasian Conference on Composite Materials, Hong Kong, November 27-30, 2006 [7] F.J.Guild, W.Bonfield: Journal of Materials Science: Materials in Medicine, Vol.9 (1998), p. 497 [8] M.Wang, W.Bonfield: Biomaterials, Vol.22 (2001), p. 1311 [9] M.Wang, N.H.Ladizesky, W.Bonfield, I.M.Ward: J.
Materials Science, Vol.35 (2000), p. 1023
Introduction Most human body tissues are natural composite materials.
The bioactive particles in these composites are normally hard (relative to matrix materials) and brittle bioceramics such as HA, tricalcium phosphate (TCP), Bioglass, etc.
References [1] W.Bonfield, M.D.Grynpas, A.E.Tully, J.Bowman, J.Abram: Biomaterials, Vol. 1 (1981), p. 185 [2] R.E.Swain, M.Wang, B.Beale, W.Bonfield: Biomedical Engineering: Applications, Basis & Communications, Vol.11 (1999), p. 315 [3] W.Bonfield, M.Wang, K.E.Tanner: Acta Materialia, Vol.46 (1998), p. 2509 [4] M.Wang: Biomaterials, Vol.24 (2003), p. 2133 [5] Symposium on Developing New Biomaterials: the Composite Approach, in the 7 th World Biomaterials Congress, Sydney, Australia, May 17-21, 2004 [6] Symposium on Composites in Medicine, in the 5 th Asian-Australasian Conference on Composite Materials, Hong Kong, November 27-30, 2006 [7] F.J.Guild, W.Bonfield: Journal of Materials Science: Materials in Medicine, Vol.9 (1998), p. 497 [8] M.Wang, W.Bonfield: Biomaterials, Vol.22 (2001), p. 1311 [9] M.Wang, N.H.Ladizesky, W.Bonfield, I.M.Ward: J.
Materials Science, Vol.35 (2000), p. 1023
Online since: March 2010
Authors: Xiao Hong Ding, Guo Jie Li
The optimal material layout of the outer loaded
panel decides the existence of the inside bars, and the existed bars form the rib plates.
The material distribution of the loaded panel decides the existence of inside beams, that is, a beam is remained if its end connected to the loaded panel is inside the high material density area, and it is removed if its end connected to the loaded panel is inside the low material density area.
The density method is used to design the optimal material distribution of the loaded panel.
Chen, etc.: Journa1 of Zhejiang University (Engineering Science)., 40(5) (2006), p. 898-902 [3] Y.
Liu: Journal of Nanjing university of Aeronautics & Astronautics, 40(2008), p. 497-500 [9] X.H.
The material distribution of the loaded panel decides the existence of inside beams, that is, a beam is remained if its end connected to the loaded panel is inside the high material density area, and it is removed if its end connected to the loaded panel is inside the low material density area.
The density method is used to design the optimal material distribution of the loaded panel.
Chen, etc.: Journa1 of Zhejiang University (Engineering Science)., 40(5) (2006), p. 898-902 [3] Y.
Liu: Journal of Nanjing university of Aeronautics & Astronautics, 40(2008), p. 497-500 [9] X.H.
Online since: October 2012
Authors: Xiao Long Lü, Shuang Jiang Lü, Qi Jun Gao
Experiment Part
Experimental materials.
Sun: Journal of Membrane Science, Vol. 350 (2010) No.1-2, p.19-31
Chung: Journal of Membrane Science, Vol. 331 (2009) No.1-2, p.66-74
Lu: submitted to Membrane Science and Technology, Vol. 30 (2010) No.3, p.2-3.
Lu: Journal of Tianjin Polytechnic University, Vol. 30 (2011), p.1-4.
Sun: Journal of Membrane Science, Vol. 350 (2010) No.1-2, p.19-31
Chung: Journal of Membrane Science, Vol. 331 (2009) No.1-2, p.66-74
Lu: submitted to Membrane Science and Technology, Vol. 30 (2010) No.3, p.2-3.
Lu: Journal of Tianjin Polytechnic University, Vol. 30 (2011), p.1-4.
Online since: May 2014
Authors: Sudathip Inchuen, Orraya Porniammongkol, Wasan Duangkhamchan
Materials and methods
Samples.
Soluble materials were extracted by incubating 1.0 g of the dried powder with 15 ml distilled water for 20 min at 80 °C [9].
Int: CIGR Journal. 12:2 (2010) 111-116
Meat Science, 93 (2013) 501-506
Technol. (2014) Available from: http://ird.sut.ac.th/e-journal/Journal/pdf/1301613.pdf
Soluble materials were extracted by incubating 1.0 g of the dried powder with 15 ml distilled water for 20 min at 80 °C [9].
Int: CIGR Journal. 12:2 (2010) 111-116
Meat Science, 93 (2013) 501-506
Technol. (2014) Available from: http://ird.sut.ac.th/e-journal/Journal/pdf/1301613.pdf
Online since: October 2011
Authors: Ming Shun Yang, Yan Li, Qi Long Yuan, Jian Ming Zheng
Acknowledgments
We acknowledge financial support from the national nature science foundation of China (NSFC) project [50975229, 50475039] and science& technology project of Shaanxi province, China [2009JQ7003] provided for this work.
CIRP Journal of Manufacturing Science and Technology. 1 (2008) 2-17
Advanced Materials Research. 97-101 (2010) 4032-4035
Dynamics Simulation and Analysis of Lead Screw Cold Roll-Beating .Journal of Xi’an University of Technology. 25 (2009) 383-386
Analysis of Lead Screw High-Speed Roll-beating Forming, Key Engineering Materials. 455 (2011) 151-155.
CIRP Journal of Manufacturing Science and Technology. 1 (2008) 2-17
Advanced Materials Research. 97-101 (2010) 4032-4035
Dynamics Simulation and Analysis of Lead Screw Cold Roll-Beating .Journal of Xi’an University of Technology. 25 (2009) 383-386
Analysis of Lead Screw High-Speed Roll-beating Forming, Key Engineering Materials. 455 (2011) 151-155.
Online since: December 2011
Authors: Sen Zhao, Hong Yang Jing, Yong Dian Han, Lian Yong Xu
Electrochemical Behavior of Welded Joints with 308L Stainless Welding Wire and Low Temperature Transformation Welding Wire
Sen Zhao1,a, Hongyang Jing1,b , Yongdian Han1,c and Lianyong Xu1,d
1School of Materials Science and Engineering, Tianjin University, Tianjin 300072, PR China
azhaosen3333@163.com, bjhong@tju.edu.cn, chanyongdian@tju.edu.cn, dxulianyong@tju.edu.cn
Keywords: Stainless steel, Low temperature transformation, Polarisation, Corrosion resistant
Abstract.
Low transformation temperature welding wire (LTTW) is a new welding material which can reduce the welding distortion and welding residual stress due to the shrinkable through martensite transformation during cooling process after welding.
Withers: Metallurgical and Materials Transactions, Vol. 39 (2008), p. 3070 [3] J.
Francis, et al.: Journal of Pressure Vessel Technology, Vol. 131 (2009), p.041401 [4] Song, J.M., Tsai, C.H., Fu, Y.P.: Corrosion Science, Vol. 52 (2010), p.2519 [5] Cheng, X.Q., X.G.
Du: Chinese Science Bulletin, Vol. 54 (2009), p. 2239 [6] Yin, Z.F., et al.: Journal of Solid State Electrochemistry, Vol. 13 (2009), p.1291
Low transformation temperature welding wire (LTTW) is a new welding material which can reduce the welding distortion and welding residual stress due to the shrinkable through martensite transformation during cooling process after welding.
Withers: Metallurgical and Materials Transactions, Vol. 39 (2008), p. 3070 [3] J.
Francis, et al.: Journal of Pressure Vessel Technology, Vol. 131 (2009), p.041401 [4] Song, J.M., Tsai, C.H., Fu, Y.P.: Corrosion Science, Vol. 52 (2010), p.2519 [5] Cheng, X.Q., X.G.
Du: Chinese Science Bulletin, Vol. 54 (2009), p. 2239 [6] Yin, Z.F., et al.: Journal of Solid State Electrochemistry, Vol. 13 (2009), p.1291
Online since: March 2011
Authors: Joong Hee Lee, Yu Xin He, Yu Qing Zhang, Yan Yi Nan, Xian Li Jun, Da Hu Yao
Preparation and Properties of Polydicyclopentadiene /MMt Nanocomposites Using Supported Tungsten Catalyst
Yu Qing Zhang1,a, Yan Yi Nan1,2, Lee Joong Hee2,b, He Yu Xin1,c,
Yao Da Hu1,d, Jun Xian Li1
1Key Lab of Polymer Science and Nanotechnology, Henan University of Science & Technology, Luoyang 471003, P.
Experimental Materials.
Mol, Journal of Molecular Catalysis A: Chemical, Vol 21(2004), p. 39 [2] M.
Yoon Bong, European Polymer Journal, Vol 40 (2004), p. 2437 [4] P.
Kyung, Composites Science and Technology, Vol 64 (2004), p. 1383 [6] M.
Experimental Materials.
Mol, Journal of Molecular Catalysis A: Chemical, Vol 21(2004), p. 39 [2] M.
Yoon Bong, European Polymer Journal, Vol 40 (2004), p. 2437 [4] P.
Kyung, Composites Science and Technology, Vol 64 (2004), p. 1383 [6] M.
Online since: December 2012
Authors: Chang Su, Wei Jia Su
These constitute the combustible material of the truck fire accident
Applied Mechanics and Materials, 2011, 94: 1991-1997
Principle and application of electric-driven wheels truck[M].Beijing: China Social Sciences Publishing House, 2001.
Analysis of accidents caused by tip lorry with electric-driven wheels and study of monitoring system[J].China Safety Science Journal, 2005, 15(7): 104-107.
Journal of Liaoning Technical University (Natural Science), 2000, 19(6):650-652.
Applied Mechanics and Materials, 2011, 94: 1991-1997
Principle and application of electric-driven wheels truck[M].Beijing: China Social Sciences Publishing House, 2001.
Analysis of accidents caused by tip lorry with electric-driven wheels and study of monitoring system[J].China Safety Science Journal, 2005, 15(7): 104-107.
Journal of Liaoning Technical University (Natural Science), 2000, 19(6):650-652.
Online since: May 2014
Authors: Shi Bin Wang, Ri Hui Chen, Xiang Yun Meng
The materials should have characteristics of corrosion resistance and durability, the parts among convergence, throat, diffuser need to be reinforced
Water Supply System.
The material applied in venturi tube should have anticorrosion.
Journal of XI’AN university of science and technology, 31(2011)3:293-296(in Chinese) [2]LI Xuhai.
Journal of Hazardous Materials (97)2003 267–279 [7]D.
Dropsize measurements in Venturi scrubbers.Chemical Engineering Science, (56)2001 4901–4911 [8]Majid Ali, Changqi Yan, Zhongning Sun, et al.
The material applied in venturi tube should have anticorrosion.
Journal of XI’AN university of science and technology, 31(2011)3:293-296(in Chinese) [2]LI Xuhai.
Journal of Hazardous Materials (97)2003 267–279 [7]D.
Dropsize measurements in Venturi scrubbers.Chemical Engineering Science, (56)2001 4901–4911 [8]Majid Ali, Changqi Yan, Zhongning Sun, et al.
Online since: July 2013
Authors: Hui Feng, Peng Wei Li, Gang Li, Wen Dong Zhang, Jie Hu, Sheng Bo Sang
Nowadays, biosensor technology is a heavily researched area [3], ranging from diagnostics of cells, DNA [4] and protein, to novel materials for biosensors, tissue engineering, surface modification, systems for drug delivery.
For most membrane materials, PDMS has lower stiffness than silicon, aluminium nitride, silicon nitride and polymethylmethacrylate (PMMA).
Petersen, Silicon as a mechanical material, Proc.
Najafi, Science, 1991, 254, 1335-1342
The history of science and technology.
For most membrane materials, PDMS has lower stiffness than silicon, aluminium nitride, silicon nitride and polymethylmethacrylate (PMMA).
Petersen, Silicon as a mechanical material, Proc.
Najafi, Science, 1991, 254, 1335-1342
The history of science and technology.