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Online since: July 2011
Authors: Juan Qin Xue, Lin Bo Li, Xin Zhe Lan, Yong Hui Song, Qiu Li Zhang, Yu Hong Tian
Material and methods
The source and quality of the wastewater.
Fallgren: Journal of Hazardous Materials Vol.168 (2009), p.843 [3] M.
Tang: Separation Science and Engineering Vol.18 (2010), p.234 [9] X.W.
Shi: Journal of Colloid and Interface Science. in press
Nikov: Biochemical Engineering Journal Vol.35 (2007), p.336.
Fallgren: Journal of Hazardous Materials Vol.168 (2009), p.843 [3] M.
Tang: Separation Science and Engineering Vol.18 (2010), p.234 [9] X.W.
Shi: Journal of Colloid and Interface Science. in press
Nikov: Biochemical Engineering Journal Vol.35 (2007), p.336.
Online since: December 2014
Authors: Jun Yan, Sheng Hao Meng, Hong Guang Li, Shi Guo Du
Novel carbon materials in biosensor systems.
Diamond and related materials, 2003, 12(3): 827-832
Rare Metal Materials and Engineering, 2007, 36(s3): 100-103
Journal of Hunan University(Natural Sciences), 2004, 31(5): 18-21
Chinese Journal of Aeronautics, 2010, 23: 377-380
Diamond and related materials, 2003, 12(3): 827-832
Rare Metal Materials and Engineering, 2007, 36(s3): 100-103
Journal of Hunan University(Natural Sciences), 2004, 31(5): 18-21
Chinese Journal of Aeronautics, 2010, 23: 377-380
Online since: March 2010
Authors: Rui Ying Zhang, Zhi Ming Shi, Ri Chang Huo
Yan: Materials Science and Engineering Vol.
Wang: Materials Science and Engineering A Vol. 478 (2008) ,P.208 [9] Z.W.
Li : Materials Science and Engineering A Vol.473 (2008) , P.166 [12] T.
Ma : Journal of Materials Science Vol. 36 (2001), P.5581 [13] Q.
Zhang: Journal of Materials Science Vol. 39(2004), P.667 [17] W.
Wang: Materials Science and Engineering A Vol. 478 (2008) ,P.208 [9] Z.W.
Li : Materials Science and Engineering A Vol.473 (2008) , P.166 [12] T.
Ma : Journal of Materials Science Vol. 36 (2001), P.5581 [13] Q.
Zhang: Journal of Materials Science Vol. 39(2004), P.667 [17] W.
Online since: September 2013
Authors: Cheng Zhou, Zhen Yu Gao, Tie Ye
Journal of Magnetism and Magnetic Materials, 2008, (320): e627
Journal of Magnetism and Magnetic Materials, 2009, (321): 1928
Journal of Magnetism and Magnetic Materials, 2011 (323): 2335
Journal of Magnetism and Magnetic Materials, 2011, (323): 3234
Journal of Magnetism and Magnetic Materials,2008,(320): 2490
Journal of Magnetism and Magnetic Materials, 2009, (321): 1928
Journal of Magnetism and Magnetic Materials, 2011 (323): 2335
Journal of Magnetism and Magnetic Materials, 2011, (323): 3234
Journal of Magnetism and Magnetic Materials,2008,(320): 2490
Online since: January 2011
Authors: Ming Yang, Yu Jing Nie
Xie, et al:Materials Science and Engineering .
Xu: Journal of Materials Science Vol.22(1987), p. 337-345 [7] T.
Xu Xu: Journal of Materials Science Letters Vol.7(1988), p.241-242 [8] T.
Faulkner: Journal of Materials Science Vol.16(1981), p.373-383
Weng: Materials Science and Technology Vol. 21(2005), p. 305-310
Xu: Journal of Materials Science Vol.22(1987), p. 337-345 [7] T.
Xu Xu: Journal of Materials Science Letters Vol.7(1988), p.241-242 [8] T.
Faulkner: Journal of Materials Science Vol.16(1981), p.373-383
Weng: Materials Science and Technology Vol. 21(2005), p. 305-310
Online since: August 2014
Authors: Zuhailawati Hussain, Soon Vern Yee, Anasyida Abu Seman, Muhammad Syukron, Indra Putra Almanar
Among the various available procedures for the production of ultra-fine grain materials, ECAP is the most established method for the production of bulk billets [3].
References [1] Jogi, B.F et al., "Some Studies on Fatigue Crack Growth Rate of Aluminum Alloy 6061", Journal of Materials Processing Technology,201, pp.380-384, 2008
[4] Stolyarov, V.V et al., "Influence of ECAP Routes on The Microstructures and Properties of Pure Ti", Materials Science and Engineering, A(299), pp.59-67, 2001
[5] Valiev, R.Z et al., “Producing Bulk Ultrafine-Grained Materials by Severe Plastic Deformation”, Journal of the Minerals, Metals and Materials Society, 58(4), pp.33-39, 2006
[6] Furukawa, M., Horita, Z., & Langdon, T.G, “Processing by Equal-Channel Angular Pressing: Applications to Grain Boundary Engineering”, Journal of Materials Science, pp.909-917, 2005.
References [1] Jogi, B.F et al., "Some Studies on Fatigue Crack Growth Rate of Aluminum Alloy 6061", Journal of Materials Processing Technology,201, pp.380-384, 2008
[4] Stolyarov, V.V et al., "Influence of ECAP Routes on The Microstructures and Properties of Pure Ti", Materials Science and Engineering, A(299), pp.59-67, 2001
[5] Valiev, R.Z et al., “Producing Bulk Ultrafine-Grained Materials by Severe Plastic Deformation”, Journal of the Minerals, Metals and Materials Society, 58(4), pp.33-39, 2006
[6] Furukawa, M., Horita, Z., & Langdon, T.G, “Processing by Equal-Channel Angular Pressing: Applications to Grain Boundary Engineering”, Journal of Materials Science, pp.909-917, 2005.
Online since: April 2015
Authors: Jun Ping Yuan, De Dong Chen, Hai Rui Bo
TABLE 1 THE CHEMICAL COMPOSITION OF THE EXPERIMENTAL MATERIALS
Sample No.
Figure 3 shows the anodic polarization curves for the samples of the two materials in artificial sweat.
Due to the different corrosion tendency of the various materials and the different degree of corrosion, the amounts of released metal ions of these materials are also different.
Fashion Jewelry Materials and Manufacturing Technology[M].
Corrosion Science, 2010,52(10): 3537-3547
Figure 3 shows the anodic polarization curves for the samples of the two materials in artificial sweat.
Due to the different corrosion tendency of the various materials and the different degree of corrosion, the amounts of released metal ions of these materials are also different.
Fashion Jewelry Materials and Manufacturing Technology[M].
Corrosion Science, 2010,52(10): 3537-3547
Online since: March 2017
Authors: Ming Shan Yang, Peng Wei Yin, Hong Liang Tong
Preparation and Properties of Cross-Linked Polysiloxane Microspheres for Light-Scattering
Ming-Shan YANG1,2,a*, Peng-Wei YIN1,2,b, Hong-Liang TONG1,2,c
1Department of Material Science and Engineering, Beijing Key Lab of Special Elastomer Composites Materials, Beijing Institute of Petrochemical Technology, Beijing 102617, China
2College of Materials Science and Engineering, Beijing University of Chemical Technology,Beijing,100029,China
a. yangms001@126.com, b. pengweiyin@126.com, c. 735824830@qq.com
*Corresponding author
Keywords: polysiloxane; microspheres; light scattering
Abstract.
The narrow particle size distribution of poly (vinyl silicone) microspheres were prepared by the hydrolysis-polycondensation method with vinyl silane (VTMS) as raw materials.
Conclusion The narrow particle size distribution of poly (vinyl silicone) microspheres were prepared by the hydrolysis-polycondensation method with vinyl silane (VTMS) as raw materials.
Journal of Inorganic and Organometallic Polymers and Materials 6(2014): 1086-1091
Journal of Polymer Research 1(2014) : 3~6
The narrow particle size distribution of poly (vinyl silicone) microspheres were prepared by the hydrolysis-polycondensation method with vinyl silane (VTMS) as raw materials.
Conclusion The narrow particle size distribution of poly (vinyl silicone) microspheres were prepared by the hydrolysis-polycondensation method with vinyl silane (VTMS) as raw materials.
Journal of Inorganic and Organometallic Polymers and Materials 6(2014): 1086-1091
Journal of Polymer Research 1(2014) : 3~6
Online since: October 2006
Authors: Helmut Mehrer
Diffusion in solids is a process that is fundamental in the art and science of materials and thus an
important topic of solid-state physics, physical metallurgy and materials science.
A thorough understanding of diffusion in materials is crucial for materials development and engineering.
Graham, Quaterly Journal of Science, Literature and Art 27, 74 (1829)
[49] DIMAT-92, Diffusion in Materials, M.
[50] DIMAT-96, Diffusion in Materials, H.
A thorough understanding of diffusion in materials is crucial for materials development and engineering.
Graham, Quaterly Journal of Science, Literature and Art 27, 74 (1829)
[49] DIMAT-92, Diffusion in Materials, M.
[50] DIMAT-96, Diffusion in Materials, H.
Online since: November 2013
Authors: Zhen Dong Dai, Jie Ru, Meng Zhang, Bao Lei Wang, Qing Song He, Ming Yu
Micromechatronics and Human Science, 2002.
Smart Materials and Structures 7.6 (1998): R15
Smart Materials and Structures 15.5 (2006): 1217
Smart Materials and Structures 1.1 (1992): 91
Journal of Applied Physics 104.7 (2008): 071101-071101
Smart Materials and Structures 7.6 (1998): R15
Smart Materials and Structures 15.5 (2006): 1217
Smart Materials and Structures 1.1 (1992): 91
Journal of Applied Physics 104.7 (2008): 071101-071101