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Online since: November 2015
Authors: S. Ghanaraja, K.L. Vinuth Kumar, K.S. Ravikumar, B.M. Madhusudan
Utpat, Procedia Materials Science 6. ( 2014 ) 1150 – 1156
[5] V.
Kori, Procedia Materials Science 6. (2014) 1658 – 1667
Ajithprasad, Procedia Materials Science 5. (2014) 934–943
Gupta, Materials Science and Engineering A. 333(1-2) (2002) 193-198
Procedia Materials Science. (2014).
Kori, Procedia Materials Science 6. (2014) 1658 – 1667
Ajithprasad, Procedia Materials Science 5. (2014) 934–943
Gupta, Materials Science and Engineering A. 333(1-2) (2002) 193-198
Procedia Materials Science. (2014).
Online since: January 2012
Authors: Jiang Wu, Ping He, Min Yu Sun, Ji Hui Fang, Jie He Chen, Jian Xing Ren, Wei Guo Pan, Xiao Ying Zhang, Wen Gao, Hai Yan Luo
In recent years, the use of photocatalytic oxidation activity of nano-TiO2 and TiO2 powder or load materials for adsorption removal of heavy metal pollutants attracted widespread concern.
Ying Li et al. developed [4] a new type of silicon - titanium (SiO2-TiO2) nano-composite materials which can effectively capture elemental mercury (Hg0) under UV irradiation.
Acknowledgements This work was partially sponsored by NSF (Natural Science Foundation, 50806041), Ministry, Shanghai Shuguang Project Funds (08SG53), Shanghai Science and Technology Development (09230501300), and the fifth Key Subject of Shanghai Education Commission (Grant No.
[2] Yan Cao, Hongcang Zhou, Jiang Wu, et al., Studies of the Fate of Sulfur Trioxide in Coal-Fired Utility Boilers Based on Modified Selected Condensation Methods, Environmental Science & Technology.2010, 44(9): 3429-3434
[6] Shan Yang, Junying Zhang, Yongchun Zhao, Chen Yu, Kai Zhang, Preparation of carbon nano -TiO2 and study on the photocatalytic removal of mercury, Journal of Engineering Thermophysics, 2010, 2 (31): 339-342.
Ying Li et al. developed [4] a new type of silicon - titanium (SiO2-TiO2) nano-composite materials which can effectively capture elemental mercury (Hg0) under UV irradiation.
Acknowledgements This work was partially sponsored by NSF (Natural Science Foundation, 50806041), Ministry, Shanghai Shuguang Project Funds (08SG53), Shanghai Science and Technology Development (09230501300), and the fifth Key Subject of Shanghai Education Commission (Grant No.
[2] Yan Cao, Hongcang Zhou, Jiang Wu, et al., Studies of the Fate of Sulfur Trioxide in Coal-Fired Utility Boilers Based on Modified Selected Condensation Methods, Environmental Science & Technology.2010, 44(9): 3429-3434
[6] Shan Yang, Junying Zhang, Yongchun Zhao, Chen Yu, Kai Zhang, Preparation of carbon nano -TiO2 and study on the photocatalytic removal of mercury, Journal of Engineering Thermophysics, 2010, 2 (31): 339-342.
Online since: June 2014
Authors: Chang Zheng Chen, Xiang Jun Kong, Zhong Wang
Figure 1(b)~(d) shows that for the damping measures with the same length, thickness is the main factor affecting the damping effect and the thicker material damping effect is superior to the thin damping materials.
Figure 2 Free damping materials and deformation is demonstrated Figure 3 Constrained damping materials and deformation is demonstrated From the appearance point of view, the only difference is the outermost layer for two kinds of damping measures.
Journal of Intelligent Material Systems and Structures, 2003,14(9):551-561
Journal of Marine Science and Technology,2009, 17(1):34-41 [4]Lv Yining, Lv Zhenhua, Zhao Bo, Wang Chao.
Chinese Journal of Computational Mechanics,2012,02:178-183
Figure 2 Free damping materials and deformation is demonstrated Figure 3 Constrained damping materials and deformation is demonstrated From the appearance point of view, the only difference is the outermost layer for two kinds of damping measures.
Journal of Intelligent Material Systems and Structures, 2003,14(9):551-561
Journal of Marine Science and Technology,2009, 17(1):34-41 [4]Lv Yining, Lv Zhenhua, Zhao Bo, Wang Chao.
Chinese Journal of Computational Mechanics,2012,02:178-183
Online since: July 2012
Authors: Sivakumar Sivanesan, Ramesh Singh, Chin Kong Leong
During the last 10 years, research has been performed on nanocrystalline materials in order to investigate the enhancement of mechanical, optical, magnetic and electronic properties [6].
Materials & Methods Sample Preparation.
Materials science Research (1978), vol. 11, Plenum, New York, p. 151-168
Journal of the American Ceramic Society (2006). 90: p. 438-443
Material Science and Engineering (2003), 99: p.321-324.
Materials & Methods Sample Preparation.
Materials science Research (1978), vol. 11, Plenum, New York, p. 151-168
Journal of the American Ceramic Society (2006). 90: p. 438-443
Material Science and Engineering (2003), 99: p.321-324.
Online since: February 2012
Authors: Guo Xiang Yin, Xin Kui Gao, Jun Hong Chen, Yong Li
The wear mechanism comparison between MgO-based chrome-free brick and MgO-Cr2O3 brick in the lower part of RH vacuum degasser
Guoxiang Yin1,a, Yong li1,b, Junhong Chen1,c, Xinkui GaO2,d
1 school of materials Science and Engineering, University of Science and Technology Beijing, Beijing 100083, China
2 Yingkou Qing Hua refractories CO., Ltd., Dashiqiao 115100, China
ayinguoxiang@tom.com, b lirefractory@vip.sina.com, cchenjunhong2666@126.com,
dGaoxinkui@sina.com.cn
Keywords: RH vacuum degasser, MgO-Cr2O3brick, MgO-ZrO2 brick, structure spalling resistance, thermal shock resistance
Abstract.
MgO-ZrO2 brick(ω(ZrO2) =11%) prepared with fused magnesia (ω(MgO) >97.3%, 5~3, 3~1, ≤1, ≤0.088mm) and monclinic zirconia (ω(ZrO2) >98%, ≤0.045mm) as main starting materials has much higher structure spalling resistance than that of rebonded MgO-Cr2O3 brick [3].
Journal of the European Ceramic Society: 2002, 22(5): 745–754 [5] Baris Sahin, Cemail Aksel.
Journal of Alloys and Compounds: 2011, 509 (12): 4420–4425 [8] Jialin Sun, Yanro Hong, Shuju Dou.
Journal of materials science: 1986, 21(10): 3479-3482 [10] Ibram Ganesh, J.M.F.
MgO-ZrO2 brick(ω(ZrO2) =11%) prepared with fused magnesia (ω(MgO) >97.3%, 5~3, 3~1, ≤1, ≤0.088mm) and monclinic zirconia (ω(ZrO2) >98%, ≤0.045mm) as main starting materials has much higher structure spalling resistance than that of rebonded MgO-Cr2O3 brick [3].
Journal of the European Ceramic Society: 2002, 22(5): 745–754 [5] Baris Sahin, Cemail Aksel.
Journal of Alloys and Compounds: 2011, 509 (12): 4420–4425 [8] Jialin Sun, Yanro Hong, Shuju Dou.
Journal of materials science: 1986, 21(10): 3479-3482 [10] Ibram Ganesh, J.M.F.
Online since: September 2011
Authors: Zhong Guo Huang, Shun Yao Jin, Ming Xiang Li, Hui Lai Sun, Yu Tao Li, Zhi Xiang Fang, Zong Ke Shao
University of Science and Technology Beijing, China 2009), pp.12.
Xiao et al: The application of MSC.MARC in materials processing engineering (China Waterpower Press, China 2010), pp.402
Hung: Journal of Materials Processing Technology, Vol.121 (2002), pp.273
Tagavi: Journal of Materials Processing Technology, Vol.80-81(1998), pp.273
Osakada: Journal of Materials Processing Technology, Vol.80-81(1998), pp.700.
Xiao et al: The application of MSC.MARC in materials processing engineering (China Waterpower Press, China 2010), pp.402
Hung: Journal of Materials Processing Technology, Vol.121 (2002), pp.273
Tagavi: Journal of Materials Processing Technology, Vol.80-81(1998), pp.273
Osakada: Journal of Materials Processing Technology, Vol.80-81(1998), pp.700.
Online since: April 2014
Authors: Kang Hua Liu, Ming De Duan, Hao Liang Feng, Jun Yong Lu
Acknowledgments
The research work was supported by National Science and Technology Major Project Foundation of China under Grant No. 2012ZX04005-021 and No. 2011ZX04002-132.
Proceedings of the Royal Society of London, Series A: Mathematical and Physical Sciences, 1966, 295:300-319
Journal of Huazhong University of Science And Technology, 2012. 04(4):49 - 53.
Journal of Shengyang Normal University, 2012(3):338-342.
Rare Metal Materials And Engineering, 2001, 30(6):428 - 438.
Proceedings of the Royal Society of London, Series A: Mathematical and Physical Sciences, 1966, 295:300-319
Journal of Huazhong University of Science And Technology, 2012. 04(4):49 - 53.
Journal of Shengyang Normal University, 2012(3):338-342.
Rare Metal Materials And Engineering, 2001, 30(6):428 - 438.
Online since: February 2013
Authors: Tuan Muhammad Yusoff Shah Tuan Ya, Zahari Taha, Hadi Abdul Salaam, Phoon Sin Ye
Research on surface roughness quality has been conducted by many researchers with different materials and methods [3].
[3] Muhammad Yusuf, Khairol Anuar, Napsiah Ismail and Shamsuddin Sulaiman: Key Engineering Materials Vols. 471-472 (2011) pp 233-238
El Baradie: Journal of Materials Processing Technology 56 (1996): 786-797 [6] Information on www.exair.com
Tuan Ya: Applied Mechanics and Materials Vols. 217-219 (2012) pp 2012-2015
Palka: Archieves of Materials Science and Engineering 54 (2012): 5-12
[3] Muhammad Yusuf, Khairol Anuar, Napsiah Ismail and Shamsuddin Sulaiman: Key Engineering Materials Vols. 471-472 (2011) pp 233-238
El Baradie: Journal of Materials Processing Technology 56 (1996): 786-797 [6] Information on www.exair.com
Tuan Ya: Applied Mechanics and Materials Vols. 217-219 (2012) pp 2012-2015
Palka: Archieves of Materials Science and Engineering 54 (2012): 5-12
Online since: September 2013
Authors: J. Bensam Raj, P. Marimuthu, M. Prabhakar, V. Anandhakrishnan
[4] Zlatko Kampus, Blaz Nardin, Improving workability in ironing, Journal of materials processing technology; 130-131, (2002), p.64-68
In: Materials Science and Technology.
El-Sheikh, “Workability in Forging of Powder Metallurgy Compacts”, Journal of Materials Processing Technology, Vol. 54, (1995),p. 97-102
Shabaik, “A New workability criteria for Ductile Metals”, Journal of Engineering Materials and Technology, Vol. 108, (1986), p. 245 –249
Pandey, “Some aspects on workability of aluminium–iron powder metallurgy composite during cold upsetting”, Materials Science and Engineering A, Vol. 391, (2005), p. 418–426
In: Materials Science and Technology.
El-Sheikh, “Workability in Forging of Powder Metallurgy Compacts”, Journal of Materials Processing Technology, Vol. 54, (1995),p. 97-102
Shabaik, “A New workability criteria for Ductile Metals”, Journal of Engineering Materials and Technology, Vol. 108, (1986), p. 245 –249
Pandey, “Some aspects on workability of aluminium–iron powder metallurgy composite during cold upsetting”, Materials Science and Engineering A, Vol. 391, (2005), p. 418–426
Online since: July 2016
Authors: T. Guraya, R. Fernandez-Martinez, J. Ibarretxe, Pello Jimbert, M. Iturrondobeitia
Often, in order to improve the design of nanocomposites, they are simulated using the finite element (FE) method to predict materials mechanical properties with different modeling strategies.
Experimental Materials.
In this regard, to overcome the problem quantitative TEM tomography can be used as a tool that will help to create representative and realistic models of the materials under study.
Thomas, Electron Tomography of Nanoparticle Catalysts on Porous Supports: A New Technique Based on Rutherford Scattering, Journal of Physical Chemistry B, 105 (33), (2001) 7882-7886
Ibarretxe, Journal of Applied Polymer Science, 131 (18), (2014)
Experimental Materials.
In this regard, to overcome the problem quantitative TEM tomography can be used as a tool that will help to create representative and realistic models of the materials under study.
Thomas, Electron Tomography of Nanoparticle Catalysts on Porous Supports: A New Technique Based on Rutherford Scattering, Journal of Physical Chemistry B, 105 (33), (2001) 7882-7886
Ibarretxe, Journal of Applied Polymer Science, 131 (18), (2014)