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Online since: January 2011
Authors: Si Qun Wang, Ding Guo Zhou, Xiao Ping Li, Hai Yan Mao
a lxp810525@163.com,. bdgzhou@njfu.edu.cn, cswang@utk.edu, d812522021@qq.com
Keywords: Castor stalk, Different layers, Chemical characters, Pyrogenation-characters
Abstract: Castor is one kind of excellent woody materials and can be used to make wood based panel instead of the wood materials.
So the fire caused by woody decoration materials would be more and more.
Materials and methods Prepare of the castor stalk powder Castor stalk is from Zibo city, Shandong province, China.
Because the first phase is the dry stage and the pyrogenation of the wood materials is begin from the second phase, so it only studied the relationships between the pyrogenation (the pyrogenation of wood materials in the second and third phase) and the chemical composite amount.
JOURNAL OF ZHE JIANG UNIVERSITY (MEDICAL SCIENCES) , 2005, Vol. 34(3), p. 217-219
So the fire caused by woody decoration materials would be more and more.
Materials and methods Prepare of the castor stalk powder Castor stalk is from Zibo city, Shandong province, China.
Because the first phase is the dry stage and the pyrogenation of the wood materials is begin from the second phase, so it only studied the relationships between the pyrogenation (the pyrogenation of wood materials in the second and third phase) and the chemical composite amount.
JOURNAL OF ZHE JIANG UNIVERSITY (MEDICAL SCIENCES) , 2005, Vol. 34(3), p. 217-219
Online since: June 2012
Authors: Shi Qiong Zhou, Li Hao, Ze Guo Liu, Gui Fang Guo, Liang Wang
The research is supported by a grant from National Natural Science Foundation of China (No. 51166012).
Bergheau: A new local/global approach for the modelling of welded steel component distortions, In: The institute of Materials, London, p.573-590(2002)
Bergheau: Modelling of bimetallic welds, In: The institute of Materials, London, p.769-791(2002)
[9] ANSYS Lab-Material Nonlinearity. http://www.asiri.net/courses/meng412/Lab
International Journal of Material Forming, vol.1,p.367-370 (2008).
Bergheau: A new local/global approach for the modelling of welded steel component distortions, In: The institute of Materials, London, p.573-590(2002)
Bergheau: Modelling of bimetallic welds, In: The institute of Materials, London, p.769-791(2002)
[9] ANSYS Lab-Material Nonlinearity. http://www.asiri.net/courses/meng412/Lab
International Journal of Material Forming, vol.1,p.367-370 (2008).
Online since: April 2009
Authors: Mark T. Smith, Philip S. Sklad, Joseph A. Carpenter, Dean M. Paxton
The USDOE-supported
lightweight materials efforts in the PNGV were known as Automotive Lighweighting Materials
(ALM) and that name persisted in the FC&FP until 2007.
With the conclusion of the USDOE HighStrength Weight Reduction Materials (HSWRM) effort, which focused on applications in the heavy-duty vehicle industry, the materials research in this area is now simply known as Lightweighting Materials (LM).
The new warm-forming system will be used as a standard test bed for the evaluation of these materials as well as new Mg sheet materials produced in the future [8].
[6] Powell, B.R. (2003) Journal of Materials Vol. 55 (November), p. 28.
Ried (2004) SAE Special Publication SP-1845, Technical Paper No. 2004-01-0654 and SAE 2004 Transactions, Journal of Materials and Manufacturing, 5 (2005) pp. 250-259.
With the conclusion of the USDOE HighStrength Weight Reduction Materials (HSWRM) effort, which focused on applications in the heavy-duty vehicle industry, the materials research in this area is now simply known as Lightweighting Materials (LM).
The new warm-forming system will be used as a standard test bed for the evaluation of these materials as well as new Mg sheet materials produced in the future [8].
[6] Powell, B.R. (2003) Journal of Materials Vol. 55 (November), p. 28.
Ried (2004) SAE Special Publication SP-1845, Technical Paper No. 2004-01-0654 and SAE 2004 Transactions, Journal of Materials and Manufacturing, 5 (2005) pp. 250-259.
Online since: May 2013
Authors: Fu Liang Zhu, Yan Shuang Meng
Introduction
In recent years, nano-materials have attracted wide interests for their unique properties in various fields [1, 2].
Conclusions The Sb-doped SnO2 nano-particle is synthesized by alkoxide hydrolysis method utlizing SnCl4·5H2O and SbCl3 as raw materials.
Materials Chemistry and Physics.
Solar Energy Materials and Solar Cells.
Journal of Material Science.
Conclusions The Sb-doped SnO2 nano-particle is synthesized by alkoxide hydrolysis method utlizing SnCl4·5H2O and SbCl3 as raw materials.
Materials Chemistry and Physics.
Solar Energy Materials and Solar Cells.
Journal of Material Science.
Online since: July 2013
Authors: H.F. Wang, W.W. Song, X.L. Duan, J.L. Wang
[2] E.Ceretti,P.Fallbohmer,W.T.Wu,et al, Journal of Materials Processing Technology 1996(59) 169-180
[3] H.Sasahara,T.Tobikawa, Shirak-ashi: Journal of Materials Processing Technology. 1996(62) 448-453
Shao, et al, Journal of Functional Materials 41(2010)2029-2033
Wang, et al, Journal of South China University of Technology (Natural Science Edition) 38(2010)2-16
[11] H.F.Wang, D.W.Zuo, D.L.Shao, et al: Journal of Aeronautical Materials 31(2011)31-37
[3] H.Sasahara,T.Tobikawa, Shirak-ashi: Journal of Materials Processing Technology. 1996(62) 448-453
Shao, et al, Journal of Functional Materials 41(2010)2029-2033
Wang, et al, Journal of South China University of Technology (Natural Science Edition) 38(2010)2-16
[11] H.F.Wang, D.W.Zuo, D.L.Shao, et al: Journal of Aeronautical Materials 31(2011)31-37
Online since: January 2013
Authors: Yang Fu Jin, Fang Qin Yang, Xin Qian
Simulation of Thermal Conductivity of Sandwich Composite
Fangqin Yang, Yangfu Jin*, Xin Qian
College of Chemical Engineering and Materials Science, Zhejiang University of Technology, Hangzhou, 310014, China
*Corresponding Author.
Simulation Model and materials parameters.
Materials Parameters and condition are shown in Table 1.
:Polymer Materials Science and Engineering, 2000, Vol. 16(4): p. 17-20.In Chinese
[2] X W Zhao,L Ye.: Journal of Applied polymer Science, 2009, Vol. 111(2): p. 759-767
Simulation Model and materials parameters.
Materials Parameters and condition are shown in Table 1.
:Polymer Materials Science and Engineering, 2000, Vol. 16(4): p. 17-20.In Chinese
[2] X W Zhao,L Ye.: Journal of Applied polymer Science, 2009, Vol. 111(2): p. 759-767
Online since: March 2013
Authors: Hui Yong Hu, Bin Wang, He Ming Zhang, Nan Meng, Xu Jia Shi, Rong Xi Xuan
Research on Electron Mobility Model for Tensile Strained-Si(101) with Properties of Semiconducting Materials
Meng Nan1,a,Huiyong Hu2,b,Heming Zhang3,c,Xujia Shi4,d,
Rongxi Xuan5,e,Wang bin6,f
Key Laboratory for Wide Band-Gap Semiconductor Materials and Devices,School of Microelectronics, Xidian University, Xi’an, 710071, Peoples R China
a13468710011@163.com,bhuhy@xidian.edu.cn,chmzhang@xidian.edu.cn,dshixujia2007@163.com, exxx6688518@163.com,fwbin0316@126.com
Keywords: Tensile Strain; Electron; Mobility
Abstract.
K5051225014 and K5051225004) and Natural Science Basic Research Plan in Shaanxi Province of China (No.2010JQ8008).
Microelectron Eng, 2009, 86(3): 218 [5] Hu,Huiyong ; Zhang, Heming ; Dai, Xianying Chinese Journal of Semiconductors v 26, n 4, p 641-644, April 2005 [6] J.J.
[14] Song JianJun, Yang Chao, Zhang HeMing, Hu HuiYong, Zhou CHunYu & Wang Bin, Science in China, Physics Mechanics and Astronomy.
Vol. 55 (2012) , p .2033 [15] Song JianJun, Zhang HeMing, Hu HuiYong and Fu Qiang, Science in China, Series G: Physics, Mechanics and Astronomy.
K5051225014 and K5051225004) and Natural Science Basic Research Plan in Shaanxi Province of China (No.2010JQ8008).
Microelectron Eng, 2009, 86(3): 218 [5] Hu,Huiyong ; Zhang, Heming ; Dai, Xianying Chinese Journal of Semiconductors v 26, n 4, p 641-644, April 2005 [6] J.J.
[14] Song JianJun, Yang Chao, Zhang HeMing, Hu HuiYong, Zhou CHunYu & Wang Bin, Science in China, Physics Mechanics and Astronomy.
Vol. 55 (2012) , p .2033 [15] Song JianJun, Zhang HeMing, Hu HuiYong and Fu Qiang, Science in China, Series G: Physics, Mechanics and Astronomy.
Online since: August 2017
Authors: M. Mary Jaculine, D.J. Vidhya Raj, J. Ermine Jose, S. Jerome Das, L. Ansel Mely, K. Raja, P. Annie Vinosha
Jerome Das, Zinc stannate nanoflower (Zn2SnO4) photoanodes for efficient dye sensitized solar cells, Materials Science in Semiconductor Processing 25 (2014) 52-58
Nagaraju, Growth and photovoltaic performance of SnS quantum dots, Materials Science and Engineering: B 177 13 (2012) 1023-1028
[18] Yanbao Zhao, Zhijun Zhang, Hongxin Dang, Weimin Liu, Synthesis of tin sulfide nanoparticles by a modified solution dispersion method, Materials Science and Engineering: B 113 2 (2004) 175-178
Jerome Das, Hydrothermal synthesis of zinc stannate nanoparticles for antibacterial applications, Journal of Taibah University for Science 10 4 (2016) 601-606
Ruck, Andreas Markwitz, Murmu, Characterization of the structural and electrical properties of ion beam sputtered ZnO films, In Materials Science Forum, 700 49-52.
Nagaraju, Growth and photovoltaic performance of SnS quantum dots, Materials Science and Engineering: B 177 13 (2012) 1023-1028
[18] Yanbao Zhao, Zhijun Zhang, Hongxin Dang, Weimin Liu, Synthesis of tin sulfide nanoparticles by a modified solution dispersion method, Materials Science and Engineering: B 113 2 (2004) 175-178
Jerome Das, Hydrothermal synthesis of zinc stannate nanoparticles for antibacterial applications, Journal of Taibah University for Science 10 4 (2016) 601-606
Ruck, Andreas Markwitz, Murmu, Characterization of the structural and electrical properties of ion beam sputtered ZnO films, In Materials Science Forum, 700 49-52.
Online since: February 2011
Authors: Qing Jie Zhu, Shou Kang Hu, Yan Hua Chen
In thermal model, all materials are treated as heat conduction material.
Acknowledgements This work was financially supported by National Natural Science Foundation of China (50678059), and Natural Science Foundation of Hebei Province (D2010000922, E2009000757, and 09277130D ).
International Journal of Pressure Vessels and Piping, Vol. 83(2006), p.107
International journal of fracture, 25(3) (1984), p.77
Journal of Pressure Vessel Technology, Vol. 129(2007), p.66
Acknowledgements This work was financially supported by National Natural Science Foundation of China (50678059), and Natural Science Foundation of Hebei Province (D2010000922, E2009000757, and 09277130D ).
International Journal of Pressure Vessels and Piping, Vol. 83(2006), p.107
International journal of fracture, 25(3) (1984), p.77
Journal of Pressure Vessel Technology, Vol. 129(2007), p.66
Online since: September 2021
Authors: Galina M. Danilova-Volkovskaya, Gennady B. Shustov, N.I. Mashukov, Albina M. Altueva
Introduction
At present, significant attention is paid to the research and development of nanocomposite magnetic polymer materials – magnetoplastics.
Results and Discussion The work uses several various purpose materials and methods, conditioned by goals and tasks, solved within its framework.
This set of materials and methods in different combinations should show the potential of the "structure-property" ratio regulation within the LCPM matrix using the transformable magneto-structural properties of the UDM.
(in Russian) [2] Ignacio Moreno-Villoslada, Ranjita K Bose, Francesco Picchioni, Mario E Flores, Rodrigo Araya-Hermosilla, Self-Healing Polymer Nanocomposite Materials by Joule Effect, Polymers. 2021.13649. https://doi.org/10.3390/polym13040649, https://www.mdpi.com/journal/polymers
The science, 2015. – 496 p
Results and Discussion The work uses several various purpose materials and methods, conditioned by goals and tasks, solved within its framework.
This set of materials and methods in different combinations should show the potential of the "structure-property" ratio regulation within the LCPM matrix using the transformable magneto-structural properties of the UDM.
(in Russian) [2] Ignacio Moreno-Villoslada, Ranjita K Bose, Francesco Picchioni, Mario E Flores, Rodrigo Araya-Hermosilla, Self-Healing Polymer Nanocomposite Materials by Joule Effect, Polymers. 2021.13649. https://doi.org/10.3390/polym13040649, https://www.mdpi.com/journal/polymers
The science, 2015. – 496 p