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Online since: November 2014
Authors: Shu Gang Hu, Hai Li Niu, Xian Jun Lu
Experiment
Materials.
Chinese Journal of metallurgy, 3 (2004),61-65
Journal of Instrumental Analysis, 15(5), (1996),73-78
Journal of Building Materials.2002,5(1):84-89
Advanced Materials Research,Vol.158, (2011),189-196
Chinese Journal of metallurgy, 3 (2004),61-65
Journal of Instrumental Analysis, 15(5), (1996),73-78
Journal of Building Materials.2002,5(1):84-89
Advanced Materials Research,Vol.158, (2011),189-196
Online since: April 2012
Authors: Shan Dan Zhou, Xiao Dong Ouyang, Li Ming Hu
The Biological materials energy stays at the top of renewable resources.
The Chinese Government and relevant departments attach great importance to the use of Biological materials energy and the National Science and Technology Commission has taken the research and application of Biological materials energy technology as a key research project in continuous three national five-year plans.
Development of Biological materials energy mainly uses the biogas technology, Biological materials pyrolysis gasification technology and biomass liquid fuel technology and so on.
Development measures of Biological materials energy Based on the prospects for the development of Biological materials energy, we put forward the following measures.
Size distributions of polycyclic aromatic hydrocarbons-gas/particle Partitioning to urban aerosols[J].Journal of Aerosol Science,1999,30:759~770
The Chinese Government and relevant departments attach great importance to the use of Biological materials energy and the National Science and Technology Commission has taken the research and application of Biological materials energy technology as a key research project in continuous three national five-year plans.
Development of Biological materials energy mainly uses the biogas technology, Biological materials pyrolysis gasification technology and biomass liquid fuel technology and so on.
Development measures of Biological materials energy Based on the prospects for the development of Biological materials energy, we put forward the following measures.
Size distributions of polycyclic aromatic hydrocarbons-gas/particle Partitioning to urban aerosols[J].Journal of Aerosol Science,1999,30:759~770
Online since: February 2013
Authors: Lei Lei Qi
Safety and Evaluation of the Nano-Materials
Leilei Qi
1 School of Science, Sichuan University of Science & Engineering, zigong, Sichuan, 643000 china
llqi@guigu.org
Keywords: Nano-Materials.
The nano-structured materials are called the nano-materials (nanometer materials), referring to that the size of their structural units varies from 1 nm to 100 nm.
[2] ZHANG Tao et al.Research Advance of Nanotechnology and its Application in Food[J].Journal of Anhui Agricultural Sciences, 2007(23)
[3] JIANG Xiao-wen.Development of nanotechnology’s safety study[J].Journal of Xi’an University of Engineering Science and Technology, 2006(05)
Jilin Normal University Journal(Natural Science Edition), 2006(04).
The nano-structured materials are called the nano-materials (nanometer materials), referring to that the size of their structural units varies from 1 nm to 100 nm.
[2] ZHANG Tao et al.Research Advance of Nanotechnology and its Application in Food[J].Journal of Anhui Agricultural Sciences, 2007(23)
[3] JIANG Xiao-wen.Development of nanotechnology’s safety study[J].Journal of Xi’an University of Engineering Science and Technology, 2006(05)
Jilin Normal University Journal(Natural Science Edition), 2006(04).
Online since: March 2018
Authors: Hao Sun, Yangfen CAO, Ling Jun Wei, Jing Qian, Li Qiang Wang, Xin Chang Zhang
In the 21st century, the application of pollution-free and biodegradable packaging materials has become a new trend.
Materials and Methods Treated sludge, waste paper fibers and waste wood chips were used as mainly raw materials.
The mixture of raw materials.
Conclusion In general the specific conclusions are the followings: (1) Determined the main raw materials of biomass fibers packaging material and environmental protection additives: the main raw materials are sludge, waste paper fibers and waste wood chips.
Huang: Journal of Agro-Environment Science Vol. 34 (2015), p. 2386 [3] Charles R.
Materials and Methods Treated sludge, waste paper fibers and waste wood chips were used as mainly raw materials.
The mixture of raw materials.
Conclusion In general the specific conclusions are the followings: (1) Determined the main raw materials of biomass fibers packaging material and environmental protection additives: the main raw materials are sludge, waste paper fibers and waste wood chips.
Huang: Journal of Agro-Environment Science Vol. 34 (2015), p. 2386 [3] Charles R.
Online since: September 2011
Authors: Hong Yu Liu, Xian Jun Han, Xi Liang Liu
Vol. 22(2003),p.1
[3] Shenghong Chen, Isam Shahrour: International Journal of Rock Mechanics and Mining Sciences.
Vol.45(2008), p. 384 [4] S.H.Chen, G.N.Pande: International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts.
Vol.24(2005), p. 193 [9] C.M.Gerrard: International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts.
Vol.19(1982), p. 9 [10] K.G.Sharrna,G.N.Pande: International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts.
Vol.25(1998), p. 273 [11] Leimin Chen,Baoning Yang: Mechanical analysis for composite materials (China Science and Technology Publishing, Beijing2006) [12] Zhenming Wang: Composite material mechanics and Composite structure mechanics (China Machine Press, Beijing1991) [13] Yong Zhang,Dexin Nie: Journal of Engineering Geology.
Vol.45(2008), p. 384 [4] S.H.Chen, G.N.Pande: International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts.
Vol.24(2005), p. 193 [9] C.M.Gerrard: International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts.
Vol.19(1982), p. 9 [10] K.G.Sharrna,G.N.Pande: International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts.
Vol.25(1998), p. 273 [11] Leimin Chen,Baoning Yang: Mechanical analysis for composite materials (China Science and Technology Publishing, Beijing2006) [12] Zhenming Wang: Composite material mechanics and Composite structure mechanics (China Machine Press, Beijing1991) [13] Yong Zhang,Dexin Nie: Journal of Engineering Geology.
Online since: May 2014
Authors: Anna Danuta Dobrzańska-Danikiewicz, Dariusz Łukowiec, Mirosława Pawlyta
Introduction
Nanocomposites have involved into one of the most interested materials in the research world.
The exact imaging of the materials examined was possible by applying an HAADF detector (Z contrast).
Compton, Metal Nanoparticles and Related Materials Supported on Carbon Nanotubes, Methods and Applications 2/2 (2006) 182-193
Prato, Decoration carbon nanotubes with metal or semiconductor nanoparticles, Journal of Materials Chemistry 17 (2007) 2679-2694
Dobrzańska-Danikiewicz, Characterisation of carbon nanotubes decorated with platinum nanoparticles, Journal of Achievements in Materials and Manufacturing Engineering 53/2 (2012) 67-75
The exact imaging of the materials examined was possible by applying an HAADF detector (Z contrast).
Compton, Metal Nanoparticles and Related Materials Supported on Carbon Nanotubes, Methods and Applications 2/2 (2006) 182-193
Prato, Decoration carbon nanotubes with metal or semiconductor nanoparticles, Journal of Materials Chemistry 17 (2007) 2679-2694
Dobrzańska-Danikiewicz, Characterisation of carbon nanotubes decorated with platinum nanoparticles, Journal of Achievements in Materials and Manufacturing Engineering 53/2 (2012) 67-75
Online since: April 2013
Authors: Hai Yu, Yu Bo Zhang, Hai Ting Xia, Rong Xin Guo, Feng Yan
Investigation for the Fracture Process of WCp/Cu Functionally Graded Materials under Three-Point-Bending
Haiting Xia1,2,a,Rongxin Guo1,2,b, Feng Yan1,2, Hai Yu1,Yubo Zhang1
1Faculty of Civil and Architectural Engineering, Kunming University of Science and Technology, Kunming 650500,China
2Key Laboratory of Yunnan Higher Education Institutes for Mechanical Behavior and Microstructure Design of Advanced Materials,Kunming University of Science and Technology,Kunming 650500,China
ahtxia2006@163.com, bguorx@kmust.edu.cn
Keywords: Functionally Graded Materials, Fracture Process, Three-Point-Bending, Experimental Mechanics.
Introduction Functionally graded materials (FGMs) are known as materials in which a material composition varies gradually in some direction.
According to the knowledge of materials mechanics, the reason of the fracture of bending is that the maximum normal stress exceeds the ultimate stress of materials.
Fracture mechanics of functionally graded materials.
Advanced Materials Research, Vols. 415-417 (2012), pp 2244-2247
Introduction Functionally graded materials (FGMs) are known as materials in which a material composition varies gradually in some direction.
According to the knowledge of materials mechanics, the reason of the fracture of bending is that the maximum normal stress exceeds the ultimate stress of materials.
Fracture mechanics of functionally graded materials.
Advanced Materials Research, Vols. 415-417 (2012), pp 2244-2247
Online since: October 2013
Authors: Yong Wei Gao, Qi Liang Zhu, Long Wang
Wind Tunnel Test of Effect of Sound-absorbing material on Lift of Two-element Airfoil
YongWei Gao1,a, QiLiang Zhu2,b and Long Wang3,c
1,2,3National key laboratory of science and technology on aerodynamic design and research, Northwestern Polytechnical University, 710072, Xi’an, P.
Acknowledgments This study is financially supported by China National Natural Science Foundations (Grant No. 10972184).
"Gurney Flap-Lift Enhancement, Mechanisms and Applications," Progress in Aerospace Sciences Vol. 44, No. 1, 2008, pp. 22-47. doi: 10.1016/j.paerosci.2007.10.001 [2] Ahuja, K.
"Effect of Acoustic Excitation on the Flow over a Low-Re Airfoil," Journal of Fluid Mechanics Vol. 182, 1987, pp. 127-148. doi: 10.1017/s0022112087002271 [5] Hsiao, F.
"Control of Wall-Separated Flow by Internal Acoustic Excitation," AIAA Journal Vol. 28, No. 8, 1990, pp. 1440-1446.doi: 10.2514/3.25236 [6] Hsiao, F.
Acknowledgments This study is financially supported by China National Natural Science Foundations (Grant No. 10972184).
"Gurney Flap-Lift Enhancement, Mechanisms and Applications," Progress in Aerospace Sciences Vol. 44, No. 1, 2008, pp. 22-47. doi: 10.1016/j.paerosci.2007.10.001 [2] Ahuja, K.
"Effect of Acoustic Excitation on the Flow over a Low-Re Airfoil," Journal of Fluid Mechanics Vol. 182, 1987, pp. 127-148. doi: 10.1017/s0022112087002271 [5] Hsiao, F.
"Control of Wall-Separated Flow by Internal Acoustic Excitation," AIAA Journal Vol. 28, No. 8, 1990, pp. 1440-1446.doi: 10.2514/3.25236 [6] Hsiao, F.
Online since: February 2018
Authors: Zhao Wen Huang, Wen Ping Xiao, Jing Yang Li, She Jun Hu, Xian Hua Hou
The theoretical capacity is calculated by Eq. 4, where F is Faraday constant, ε is the geometry structural coefficient of materials andis the relative molecular weight of the anode materials.
Therefore, LiSiNi3 conforms to the anode material selection standard and is suitable for anode materials for lithium ion batteries.
Lou, Preparation and performance of Si-Fe composite materials for lithium ion batteries, Journal of Central South University (Science and Technology). 42 (2011) 859-864
Hou, Dead lithium phase investigation of Sn-Zn alloy as anode materials for lithium ion battery, Chinese Science Bulletin. 54 (2009) 1003-1008
Ru, The Roles of Intermediate Phases of Li-Si Alloy as Anode Materials for Lithium-Ion Batteries, Rare Metal Materials and Engineering. 39 (2010) 2079-2083
Therefore, LiSiNi3 conforms to the anode material selection standard and is suitable for anode materials for lithium ion batteries.
Lou, Preparation and performance of Si-Fe composite materials for lithium ion batteries, Journal of Central South University (Science and Technology). 42 (2011) 859-864
Hou, Dead lithium phase investigation of Sn-Zn alloy as anode materials for lithium ion battery, Chinese Science Bulletin. 54 (2009) 1003-1008
Ru, The Roles of Intermediate Phases of Li-Si Alloy as Anode Materials for Lithium-Ion Batteries, Rare Metal Materials and Engineering. 39 (2010) 2079-2083
Online since: January 2012
Authors: Gang Xue, Sai Fei Wang, Ran Yu, Chao Yue Zhao
The results indicated that thermal performance of materials can be adjusted with the chemical composition of materials, and when the mass percentage of carbon nanotubes is 10%, the fractional of 26.77% of energy saving efficiency can be achieved.
1.
Table1 List of the mass ratio of raw materials in the mineral composite materials Reagents Weight percent(%) tourmaline 20 Fe2O3 53.6 MnO2 10 Co2O3 3.2 CeO2 13.2 Table 2 List of the mass of the mineral composite materials and CNTs No.
Liang, et al.: Advanced Materials Research, Vol. 58 (2009), p. 47 [4] W.W.
Liang: Journal of Functional Materials, Vol. 35(2004), p. 2579 [6] D.B.
Science, 1997, 278(5335): 100~103 [8] Dresselhaus M S: Nanotechnology, New tricks with nanotubes.
Table1 List of the mass ratio of raw materials in the mineral composite materials Reagents Weight percent(%) tourmaline 20 Fe2O3 53.6 MnO2 10 Co2O3 3.2 CeO2 13.2 Table 2 List of the mass of the mineral composite materials and CNTs No.
Liang, et al.: Advanced Materials Research, Vol. 58 (2009), p. 47 [4] W.W.
Liang: Journal of Functional Materials, Vol. 35(2004), p. 2579 [6] D.B.
Science, 1997, 278(5335): 100~103 [8] Dresselhaus M S: Nanotechnology, New tricks with nanotubes.