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Online since: May 2020
Authors: Cheng Liu, Kang Du, Ze Yu Zhou, Dan Lv, Xin Yu Lv, Xiang Xiao
Materials Science and Engineering. 610 (2014) 10-16
Materials Science and Engineering: A. 478 (2008) 163-172
Materials Science and Engineering: A. 621 (2015) 8-17
Materials Science & Engineering A, 528(10) (2011) :3714-3721
Materials Science & Engineering A, 434 (1/2) (2006): 339-346
Materials Science and Engineering: A. 478 (2008) 163-172
Materials Science and Engineering: A. 621 (2015) 8-17
Materials Science & Engineering A, 528(10) (2011) :3714-3721
Materials Science & Engineering A, 434 (1/2) (2006): 339-346
Online since: August 2013
Authors: Mohd Hanafiah Abidin, Borhan Nurulaini, Romli A.Z.
New knowledge in findings potential usage of natural fiber as new material in composite technology has been increased gradually in years and these natural fiber materials are well known as competent material which can become an alternative material to the conventional and synthetic materials for suitable applications.
Introduction The usage of natural fibers and other possible agro-waste fibers as new material reinforcement in polymer composites increases in years and these materials are gaining much attention in accordance to environment protection and sustainability [1-3].
These natural fibers are well known as an alternative material to the conventional and synthetic materials such as carbon fiber, aramide, glass fiber and etc due to its high performance applications.
The advantages of using these materials are low cost for engineering materials, low density, good specific strengths and modulus, biodegradability and enhanced energy recovery [4, 5].
The materials used in this research are Casuarina equisetifolia (C.equisetifolia), unsaturated polyester resin, and methyl ethyl ketone peroxide (MEKP).
Introduction The usage of natural fibers and other possible agro-waste fibers as new material reinforcement in polymer composites increases in years and these materials are gaining much attention in accordance to environment protection and sustainability [1-3].
These natural fibers are well known as an alternative material to the conventional and synthetic materials such as carbon fiber, aramide, glass fiber and etc due to its high performance applications.
The advantages of using these materials are low cost for engineering materials, low density, good specific strengths and modulus, biodegradability and enhanced energy recovery [4, 5].
The materials used in this research are Casuarina equisetifolia (C.equisetifolia), unsaturated polyester resin, and methyl ethyl ketone peroxide (MEKP).
Online since: January 2012
Authors: Zai Sheng Cai, Li Ming Wang, Ying Ding, Yong Shen
Both of these two means exhibit problems as far as how to make textile surface display photocatalyst functions and the possible deterioration of the fiber materials due to the presence of the photocatalysts.
Yang, Application of Nanometer TiO2 in Fabric Finishing, Journal of Textile Research. 27 (2006) 99-102
Modification and Dispersion of Nanosilica, Journal of Dispersion Science and TechnoLogy. 25 (2004) 837-848
Surface modification of TiO2 nanoparticles by polyaniline, Applied Surface Science. 217 (2003) 16-22
M., Surface modification of oxidic nanoparticles using 3-methacryloxyproltrimethoxysilane, Journal of Colloid Interface Science. 269 (2004) 109-116.
Yang, Application of Nanometer TiO2 in Fabric Finishing, Journal of Textile Research. 27 (2006) 99-102
Modification and Dispersion of Nanosilica, Journal of Dispersion Science and TechnoLogy. 25 (2004) 837-848
Surface modification of TiO2 nanoparticles by polyaniline, Applied Surface Science. 217 (2003) 16-22
M., Surface modification of oxidic nanoparticles using 3-methacryloxyproltrimethoxysilane, Journal of Colloid Interface Science. 269 (2004) 109-116.
Online since: September 2013
Authors: Xin Ran Zhang, Wei Guang Li, Peng Fei Ren
Material and methods
Materials and chemicals.
Acknowledgements This work was financially supported by the Research Foundation of Harbin Institute of Technology (JC200708) References [1] Lin H C, Wang G S: Desalination. 270 (2011), p. 221-226 [2] Hussain S, Leeuwen J V, Chow C: Chemical Engineering Journal.
Vol. 6 (2013), P. 59-77 [4] Katsoyiannis I A, Canonica S: Water Research, Vol. 45 (2011),p. 3811-3822 [5] Khataee A: Environmental technology, Vol. 31 (2010),p. 73-86 [6] Nowell L H, Hoigné J: Water Research, Vol. 26 (1992),p. 599-605 [7] Hansen K, Zortea R, Piketty A: Science of the Total Environment, Vol. 443 (2013),p. 850-856 [8] Kim H, Shim J, Lee S: Chemosphere, Vol. 46 (2002),p. 123-130 [9] Wang D, Bolton J R, Hofmann R: Water Research, Vol. 46 (2012),p. 4677-4686 [10] Sichel C, Garcia C, Andre K: Water Research, Vol. 45 (2011),p. 6371-6380 [11] Watts M J, Rosenfeldt E J, Linden K G: Journal of water supply: research and technology.
Vol. 56 (2007),p. 469-477 [12] Jin J, El-Din M G, Bolton J R: Water Research, Vol.45 (2011),p. 1890-1896 [13] Kasiri M, Khataee A: Environmental technology, Vol.33 (2012),p. 1417-1425 [14] Zhang J, Fu D, Xu Y: Journal of Environmental Sciences, Vol.22 (2010),p. 1281-1289 [15] Yang Y, Li Y, Zhang Y: Separation and Purification Technology, Vol.76 (2010),p. 72-78 [16] Sahoo C, Gupta A: Journal of Hazardous Materials, Vol. 215–216 (2012),p. 302-310 [17] Trinh T K, Kang L S: Chemical Engineering Research and Design, Vol. 89 (2011), p. 1126-1135 [18] Sarathy S R, Mohseni M: Environmental Science & Technology, Vol. 41 (2007), p. 8315-8320 [19] Watts M J, Linden K G: Water Research, Vol. 41 (2007), p. 2871-2878 [20] Feng Y, Smith D W, Bolton J R: Journal of Environmental Engineering and Science, Vol. 6 (2007), p 277-284
Acknowledgements This work was financially supported by the Research Foundation of Harbin Institute of Technology (JC200708) References [1] Lin H C, Wang G S: Desalination. 270 (2011), p. 221-226 [2] Hussain S, Leeuwen J V, Chow C: Chemical Engineering Journal.
Vol. 6 (2013), P. 59-77 [4] Katsoyiannis I A, Canonica S: Water Research, Vol. 45 (2011),p. 3811-3822 [5] Khataee A: Environmental technology, Vol. 31 (2010),p. 73-86 [6] Nowell L H, Hoigné J: Water Research, Vol. 26 (1992),p. 599-605 [7] Hansen K, Zortea R, Piketty A: Science of the Total Environment, Vol. 443 (2013),p. 850-856 [8] Kim H, Shim J, Lee S: Chemosphere, Vol. 46 (2002),p. 123-130 [9] Wang D, Bolton J R, Hofmann R: Water Research, Vol. 46 (2012),p. 4677-4686 [10] Sichel C, Garcia C, Andre K: Water Research, Vol. 45 (2011),p. 6371-6380 [11] Watts M J, Rosenfeldt E J, Linden K G: Journal of water supply: research and technology.
Vol. 56 (2007),p. 469-477 [12] Jin J, El-Din M G, Bolton J R: Water Research, Vol.45 (2011),p. 1890-1896 [13] Kasiri M, Khataee A: Environmental technology, Vol.33 (2012),p. 1417-1425 [14] Zhang J, Fu D, Xu Y: Journal of Environmental Sciences, Vol.22 (2010),p. 1281-1289 [15] Yang Y, Li Y, Zhang Y: Separation and Purification Technology, Vol.76 (2010),p. 72-78 [16] Sahoo C, Gupta A: Journal of Hazardous Materials, Vol. 215–216 (2012),p. 302-310 [17] Trinh T K, Kang L S: Chemical Engineering Research and Design, Vol. 89 (2011), p. 1126-1135 [18] Sarathy S R, Mohseni M: Environmental Science & Technology, Vol. 41 (2007), p. 8315-8320 [19] Watts M J, Linden K G: Water Research, Vol. 41 (2007), p. 2871-2878 [20] Feng Y, Smith D W, Bolton J R: Journal of Environmental Engineering and Science, Vol. 6 (2007), p 277-284
Analysis, Prospect on Non-Linearity and Security Evaluation of Bridge Based on Multi-Chaotic Indexes
Online since: March 2011
Authors: Jian Ting Zhou, Jian Xi Yang
These findings lay a solid foundation for the further development of bridge safety assessment and prediction when non-linear chaotic theory is utilized to analyze the bridge health monitoring information.
1.Introduction
Bridge structure as a complicated mechanism model is subject to influences of multiple factors as structure form, materials and external circumstances, and during actual operation necessarily shows highly non-linear characteristics[1].
In the late years of the last century, the nonlinearity sciences including chaos, fractal and so many leading sciences which had offered the possibility to research time sequence with non-linear instruments had had great developments.
ACKNOWLEDGMENT This work was supported by the Nation 973 pre-Project(2010CB334710),National Natural Science Foundation (50878219) ,Natural Science Foundation Project of CSTC,2008BA6038,CSTC2009AB6148,CSTC2009AB6149, The Ministry of Education for New Century Excellent Talent Support Program References [1] Oded Rabinovitch: Nonlinear(buckling) effects in RC beams strengthened with composite materials subjected to compression[J].
International Journal of Solids and Structures, 2004, 41:5677-5695
[2] BogaertVan.Dynamic: Response of Trains Crossing Large Span Double-track Bridges[J].Journal of Construction Steel Research,1993,24(1):575-74
In the late years of the last century, the nonlinearity sciences including chaos, fractal and so many leading sciences which had offered the possibility to research time sequence with non-linear instruments had had great developments.
ACKNOWLEDGMENT This work was supported by the Nation 973 pre-Project(2010CB334710),National Natural Science Foundation (50878219) ,Natural Science Foundation Project of CSTC,2008BA6038,CSTC2009AB6148,CSTC2009AB6149, The Ministry of Education for New Century Excellent Talent Support Program References [1] Oded Rabinovitch: Nonlinear(buckling) effects in RC beams strengthened with composite materials subjected to compression[J].
International Journal of Solids and Structures, 2004, 41:5677-5695
[2] BogaertVan.Dynamic: Response of Trains Crossing Large Span Double-track Bridges[J].Journal of Construction Steel Research,1993,24(1):575-74
Online since: September 2011
Authors: Qu Fu Wei, Xiao Na Wang, Yang Xu, Yi Bing Cai
In contrast, M-ESP doesn’t need to use solutions to dissolve the spinning material under room temperature, thus expands the material suitability, and also avoids contamination to the environment.
Experiment Materials.
Ramakrishna: Composites Science and Technology Vol. 63(2003), p. 2223 [2] Dietmar W.
McCann, Manuel Marquez and Younan Xia: Nano Letters Vol. 6(2006), p. 2868 [5] Eduard Zhmayev, Daehwan Cho and Yong Lak Joo: Polymer Vol. 51(2010), p. 4140 [6] Eduard Zhmayev, Daehwan Cho and Yong Lak Joo: Polymer Vol. 51(2010), p. 274 [7] Eduard Zhmayev, Huajun Zhou and Yong Lak Joo: Non-Newtonian Fluid Mech Vol. 153(2008), p.95 [8] Nobuo Ogata, Gang Lu, Toshiharu Iwata, Shinji Yamaguchi, Koji Nakane and Takashi Ogihara: Journal of Applied Polymer Science Vol. 104(2007), p. 1368 [9] Nobuo Ogata, Shinji Yanmaguchi, Naoki Shimada, Gang Lu, Toshiharu Iwata, Koji Nakane and Takashi Ogihara: Journal of Applied Polymer Science Vol. 104(2007), p. 1640 [10] Tongchuan Jiang: Orthogonal Experimental Design (In Chinese) (Shandong Science and Technology Press, Jinan 1985)
[11] Xiaopeng Chen, Jiusheng Cheng, Xiezhen Yin: Chinese Science Bulletin Vol. 48(2003), p. 1055 [12] A.L.Yarin, S.Koombhongse and D.H.Reneker: Journal of Applied Physics Vol. 90(2001), p. 4836 [13] Darrell H.
Experiment Materials.
Ramakrishna: Composites Science and Technology Vol. 63(2003), p. 2223 [2] Dietmar W.
McCann, Manuel Marquez and Younan Xia: Nano Letters Vol. 6(2006), p. 2868 [5] Eduard Zhmayev, Daehwan Cho and Yong Lak Joo: Polymer Vol. 51(2010), p. 4140 [6] Eduard Zhmayev, Daehwan Cho and Yong Lak Joo: Polymer Vol. 51(2010), p. 274 [7] Eduard Zhmayev, Huajun Zhou and Yong Lak Joo: Non-Newtonian Fluid Mech Vol. 153(2008), p.95 [8] Nobuo Ogata, Gang Lu, Toshiharu Iwata, Shinji Yamaguchi, Koji Nakane and Takashi Ogihara: Journal of Applied Polymer Science Vol. 104(2007), p. 1368 [9] Nobuo Ogata, Shinji Yanmaguchi, Naoki Shimada, Gang Lu, Toshiharu Iwata, Koji Nakane and Takashi Ogihara: Journal of Applied Polymer Science Vol. 104(2007), p. 1640 [10] Tongchuan Jiang: Orthogonal Experimental Design (In Chinese) (Shandong Science and Technology Press, Jinan 1985)
[11] Xiaopeng Chen, Jiusheng Cheng, Xiezhen Yin: Chinese Science Bulletin Vol. 48(2003), p. 1055 [12] A.L.Yarin, S.Koombhongse and D.H.Reneker: Journal of Applied Physics Vol. 90(2001), p. 4836 [13] Darrell H.
Online since: November 2018
Authors: Abdelouahed Tounsi, Belkacem Kadari, Aicha Bessaim, Houari Heireche, Mohammed Sid Ahmed Houari, Abdelmoumen Anis Bousahla
Eringen, Nonlocal polar elastic continua, International Journal of Engineering Science., 10 (1972) 1-16
Xiao, On vibrations of porous nanotubes, International Journal of Engineering Science, 125 (2018) 23-35
Panda, Free vibration and bending behaviour of CNT reinforced composite plate using different shear deformation theory, In IOP Conference Series: Materials Science and Engineering, 115 (2016) 012014
Mahapatra, Thermal buckling behaviour of shear deformable functionally graded single/doubly curved shell panel with TD and TID properties, Advances in Materials Research, 5 (2016) 205-221
Part II: Frequency analysis, Computational Materials Science, 44 (2009) 951-961
Xiao, On vibrations of porous nanotubes, International Journal of Engineering Science, 125 (2018) 23-35
Panda, Free vibration and bending behaviour of CNT reinforced composite plate using different shear deformation theory, In IOP Conference Series: Materials Science and Engineering, 115 (2016) 012014
Mahapatra, Thermal buckling behaviour of shear deformable functionally graded single/doubly curved shell panel with TD and TID properties, Advances in Materials Research, 5 (2016) 205-221
Part II: Frequency analysis, Computational Materials Science, 44 (2009) 951-961
Online since: July 2011
Authors: Feng Hui Wang, Yong Jun Wang, Kang Lou
The failure stresses are calculated by the elasticity multi -layered theory, in which the neutral axis is determined by the mechanical properties of materials and the thickness of the layers.
Journal of Materials Research,l999, l4(2): l52-l6l
Modeling of elastic thermal stresses in two materials joined by a graded layer.
Journal of Applied Physics 2002, 91(12):9652–9656
Lara-Curzio, Mechanical properties of tape cast nickelbased anode materials for solid oxide fuel cells before and after reduction in hydrogen.
Journal of Materials Research,l999, l4(2): l52-l6l
Modeling of elastic thermal stresses in two materials joined by a graded layer.
Journal of Applied Physics 2002, 91(12):9652–9656
Lara-Curzio, Mechanical properties of tape cast nickelbased anode materials for solid oxide fuel cells before and after reduction in hydrogen.
Online since: October 2007
Authors: Yong Nam Kwon, Young Seon Lee, Jung Hwan Lee
Lee
1, c
1
Materials Processing Research Center
Korea Institute of Materials Science(KIMS)
Sangnam 66, Changwon 641-010, Korea
a
kyn1740@kmail.kimm.re.kr, b
lys1668@kmail.kimm.re.kr, c ljh1239@kmail.kimm.re.kr
Keywords: warm forging, AZ31, recrystallization, twin
Abstract.
Skubisz, et al : Journal of Materials Processing Technology Vol. 177 (2006), p.210
[2] Byoung Ho Lee, et al : Journal of Materials Processing Technology Vol. 187-188 (2007), p766 [3] Margam Chandrasekaran and Yong Ming Shyan John : Materials Science and Engineering A Vol. 381 (2004) p.308
Skubisz, et al : Journal of Materials Processing Technology Vol. 177 (2006), p.210
[2] Byoung Ho Lee, et al : Journal of Materials Processing Technology Vol. 187-188 (2007), p766 [3] Margam Chandrasekaran and Yong Ming Shyan John : Materials Science and Engineering A Vol. 381 (2004) p.308